The functions of the renal nerves

  • Gerald F. Dibona
Part of the Reviews of Physiology, Biochemistry and Pharmacology book series (volume 94)


Renal Blood Flow Urinary Flow Rate Renin Release Renal Denervation Urinary Sodium Excretion 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.


  1. Aars H (1972) Reflex inhibition of sympathetic nerve activity by phenoxybenzamine. Acta Physiol Scand 85:433–437PubMedGoogle Scholar
  2. Aars H, Akre S (1968) Effect of angiotensin on sympathetic nerve activity. Acta Physiol Scand 74:134–141PubMedGoogle Scholar
  3. Aars H, Akre S (1970) Reflex changes in sympathetic activity and arterial blood pressure evoked by afferent stimulation of the renal nerve. Acta Physiol Scand 78:184–188PubMedGoogle Scholar
  4. Abe K, Sato M, Haruyama T, Sato K (1980) The role of prostaglandins in the renin release mechanism following sodium deprivation and captopril administration in humans. Proc Int Symp Prostaglandins and the Kidney. Stuttgart, West Germany, p 19Google Scholar
  5. Adam WR (1980) Aldosterone and dopamine receptors in the kidneys: sites for pharmacologic manipulation of renal functions. Kindey Int 18:623–635Google Scholar
  6. Adrian ED, Bronk DW, Phillips G (1932) Discharges in mammalian sympathetic nerves. J Physiol 74:115–133Google Scholar
  7. Alexander RW, Gill JR, Yamabe H, Lovenberg W, Keiser HR (1974) Effects of dietary sodium and of acute saline infusion on the interrelationship between dopamine excretion and adrenergic activity in man. J Clin Invest 54:194–200PubMedGoogle Scholar
  8. Ammons WS, Santiesteban HL, Kozama S, Manning JW (1980) Carotid baroreflex regulation of plasma renin levels. Am J Physiol 239:H342–H348PubMedGoogle Scholar
  9. Anderson RJ, Henrich WL, Erickson AL, Gross P (1980) Role of renal nerves, angiotensin II and prostaglandins in antinatriuretic response to hypercapnic acidosis. Clin Res 28:434AGoogle Scholar
  10. Andreucci VE, Dal Canto A, Corradi A, Migone L (1976a) Efferent arterioles in glomerular hemodynamics. Proc Eur Dial Transplant Assoc 12:169–173PubMedGoogle Scholar
  11. Andreucci VE, Dal Canto A, Corradi A, Stanziate R, Migone L (1976b) Role of the efferent arteriole in glomerular hemodynamics of superficial nephrons. Kidney Int 9:475–480PubMedGoogle Scholar
  12. Arendhorst WJ, Beierwaltes WH (1979) Renal tubular reabsorption in spontaneously hypertensive rats. Am J Physiol 237:F38–F47PubMedGoogle Scholar
  13. Arruda JAL, Sabatini S (1980) Dopamine inhibits water transport in the toad bladder: role of locally formed dopamine. Clin Res 28:782AGoogle Scholar
  14. Astrom A, Crafford J (1967) Afferent activity recorded in the kidney nerves of rats. Acta Physiol Scand 70:10–15PubMedGoogle Scholar
  15. Astrom A, Crafford J (1968) Afferent and efferent activity in the renal nerves of cats. Acta Physiol Scand 74:69–78PubMedGoogle Scholar
  16. Atlas D, Melamed E, Lahar M (1977) Beta adrenergic receptors in rat kidney. Lab Invest 36:465–468PubMedGoogle Scholar
  17. Aukland K (1976) Renal blood flow. In: Thurau K (ed) International review of physiology: Kidney and urinary tract physiology II, Vol 2. University Park, Baltimore, pp 25–79Google Scholar
  18. Aukland K (1980a) “Redistribution” of intrarenal blood flow: facts or methodological artifacts. In: Leaf A, Giebisch G (eds) Renal pathophysiology — recent advances. Raven, New York, pp 145–154Google Scholar
  19. Aukland K (1980b) Methods for measuring renal blood flow: total flow and regional distribution. Annu Rev Physiol 42:543–555CrossRefPubMedGoogle Scholar
  20. Ayus JC, Stanton CJ, Eneas JF, Humphreys MH (1978) Mechanisms involved in the reflex circulatory changes initiated by acute unilateral nephrectomy. Proc Int Congr Nephrol 7:F-7Google Scholar
  21. Azer M, Gannon R, Kaloyanides GJ (1972) Effect of renal denervation on the antinatriuresis of caval constriction. Am J Physiol 222:611–616PubMedGoogle Scholar
  22. Baines AD, Chan W (1980) Production of urine free dopamine from DOPA; a micro-puncture study. LifeSci 26:253–259Google Scholar
  23. Baines A, Morgunov N (1980) Catecholamines and sodium excretion. In: Lichardus B, Schrier RW, Ponec J (eds) Hormonal regulation of sodium excretion. Elsevier/North Holland, Amsterdam, pp 21–32Google Scholar
  24. Baines AD, Craan A, Chan W, Morgunov N (1979) Tubular secretion and metabolism of dopamine, norepinephrine, methoxytyramine and normetanephrine by the rat kidney. J Pharmacol Exp Ther 208:144–147PubMedGoogle Scholar
  25. Barajas L (1978) Innervation of the renal cortex. Fed Proc 37:1192–1201PubMedGoogle Scholar
  26. Barajas L (1979) Anatomy of the juxtaglomerular apparatus. Am J Physiol 237:F333–F343PubMedGoogle Scholar
  27. Barajas L (1981) The juxtaglomerular apparatus: anatomical considerations in feedback control of glomerular filtration rate. Fed Proc 40:78–86PubMedGoogle Scholar
  28. Barajas L, Wang P (1975) Demonstration of acetylcholinesterase in the adrenergic nerves of the renal glomerular arterioles. J Ultrastruct Res 53:244–253CrossRefPubMedGoogle Scholar
  29. Barajas L, Wang P (1978) Myelinated nerves of the rat kidney. J Ultrastruct Res 65:148–162CrossRefPubMedGoogle Scholar
  30. Barajas L, Wang P (1979) Localization of tritiated norepinephrine in the renal arteriolar nerves. Anat Res 195:525–534CrossRefGoogle Scholar
  31. Barajas L, Silverman AJ, Muller J (1974) Ultrastructural localization of acetylcholinesterase in the renal nerves. J Ultrastruct Res 49:297–311CrossRefPubMedGoogle Scholar
  32. Barajas L, Wang P, Desantis S (1976) Light and electron microscopic localization of acetylcholinesterase activity in the rat renal nerves. Am J Anat 147:219–234CrossRefPubMedGoogle Scholar
  33. Barger AC, Liebowtiz MR, Muldowney FP (1959a) The role of the kidney in the homeostatic adjustments of congestive heart failure. J Chronic Dis 9:571–582CrossRefPubMedGoogle Scholar
  34. Barger AC, Mudlowney FP, Liebowitz MR (1959b) Role of the kidney in the pathogenesis of congestive heart failure. Circulation 20:273–285PubMedGoogle Scholar
  35. Baum T, Shropshire AT (1973) Reduction of sympathetic outflow by central administration of L-dopa, dopamine and norepinephrine. Neuropharmacology 12:49–56CrossRefPubMedGoogle Scholar
  36. Baum T, Shropshire AT (1975) Inhibition of efferent sympathetic nerve activity by 5-hydroxytryptophan in centrally administered 5-hydroxytryptamine. Neuropharmacology 14:227–233CrossRefPubMedGoogle Scholar
  37. Beacham WS, Kunze DL (1969) Renal receptors evoking a spinal vasomotor reflex. J Physiol 201:73–85PubMedGoogle Scholar
  38. Beierwaltes WH, Schryver S, Olson PS, Romerao JC (1980) Interaction of the prostaglandin and renin-angiotensin systems in isolated rat glomeruli. Am J Physiol 239:F602–F608PubMedGoogle Scholar
  39. Bell C, Lang WJ (1973) Neural dopaminergic vasodilator control in the kidney. Nature 246:27–29Google Scholar
  40. Bell C, Lang WJ, Laska F (1978) Dopamine-containing vasomotor nerves in the dog kidney. J Neurochem 31:77–83PubMedGoogle Scholar
  41. Benchetrit G, Eteradossi J, Lemarchands H (1966) Effects d'une enervation chronique du rein sur la diurese et la saliurese du chien eveille. Pathol Biol (Paris) 14:944–951PubMedGoogle Scholar
  42. Bello-Reuss E (1980) Effect of catecholamines on fluid reabsorption by the isolated proximal convoluted tubule. Am J Physiol 238:F347–F352PubMedGoogle Scholar
  43. Bello-Reuss E, Colindres RE, Pastoriza-Munoz E, Mueller RA, Gottschalk CW (1975) Effects of acute unilateral denervation in the rat. J Clin Invest 56:208–217PubMedGoogle Scholar
  44. Bello-Reuss E, Trevino DL, Gottschalk CW (1976) Effect of renal sympathetic nerve stimulation on proximal water and sodium reabsorption. J Clin Invest 57:1104–1107PubMedGoogle Scholar
  45. Bello-Reuss E, Pastoriza-Munoz E, Colindres RE (1977) Acute unilateral renal denervation in rats with extracellular volume expansion. Am J Physiol 232:F26–F32PubMedGoogle Scholar
  46. Bencsath P, Szalay L, Demeczky L, Takacs L (1971) Effects of chlorothiazide and furosemide on sodium and water excretion after unilateral splanchicotomy in the dog. Nephron 8:329–343PubMedGoogle Scholar
  47. Bencsath P, Bonvalet J-P, De Rouffignac C (1972) Tubular factors in denervation diuresis and natriuresis. In: Worz H, Spinelli F (eds) Recent advances in renal physiology. Karger, Basel, pp 96–106Google Scholar
  48. Bencsath P, Asztalos B, Szalay L, Takacs L (1979) Renal handling of sodium after chronic renal sympathectomy in the anesthetized rat. Am J Physiol 236:F513–F518PubMedGoogle Scholar
  49. Ben-Ishay D, Knudsen KD, Dahl LK (1973) Exaggerated response to isotonic saline loading in genetically hypertension-prone rats. J Lab Clin Med 82:597–604PubMedGoogle Scholar
  50. Bennett ED, Keddie J (1974) Increased glomerular filtration in patients with myocardial infarction. Clin Sci 47:8–9Google Scholar
  51. Bennett ED, Brooks NH, Keddi J, Lis Y, Wilson A (1977) Increased renal function in patients with acute left ventricular failure: a possible homeostatic mechanism. Clin Sci 52:43–50Google Scholar
  52. Bennett ED, Brooks NH, Lis Y, Wilson A (1979) Is the elevated renal function in patients with acute heart failure a homeostatic mechanism? In: Hainsworth R, Kidd C, Linden RJ (eds) Cardiac receptors. Cambridge Univ, Cambridge, p 468Google Scholar
  53. Berecek KH, Shaffer RA, Brody MJ (1980) Circulating epinephrine is the source for the sympathetic transmitter mediating active beta-adrenergic vasodilation. Circulation (Suppl III) 62:III–24Google Scholar
  54. Berl T, Henrich WL, Erickson AL, Schrier RW (1979) Prostaglandins in the beta adrenergic and baroreceptor mediated secretion of renin. Am J Physiol 236:F472–F477PubMedGoogle Scholar
  55. Bernard C (1859) Lecons sur les proprietes physiologiques des liquides de l'organisme. Bailliere, Paris, pp 172–173Google Scholar
  56. Berne RM (1952) Hemodynamics and sodium excretion of denervated kidney in anesthetized and unanesthetized dog. Am J Physiol 171:148–158PubMedGoogle Scholar
  57. Berthelsen S, Pettinger WA (1977) A functional basis for classification of alpha adrenergic receptors. Life Sci 21:595–606CrossRefPubMedGoogle Scholar
  58. Besarab A, Silva P, Landsberg L, Epstein FH (1977) Effect of catecholamines on tubular function in the isolated perfused rat kidney. Am J Physiol 233:F39–F45PubMedGoogle Scholar
  59. Better OS, Massry SG (1978) Effect of chronic bile duct obstruction on renal handling of salt and water. J Clin Invest 51:402–411Google Scholar
  60. Bevan JA (1978) Bascular neuroeffector mechanisms. Raven, New YorkGoogle Scholar
  61. Blackshear JL, Spielman WS, Knox FG, Romero JC (1979) Dissociation of renin release and renal vasodilatation by prostaglandin synthesis inhibitors. Am J Physiol 237:F20–F24PubMedGoogle Scholar
  62. Blair ML (1980) Renin secretion rate is increased by infusion of alpha adrenoceptor agonists into the renal artery. Fed Proc 39:1084Google Scholar
  63. Blair ML (1981) Inhibition of renin secretion by intrarenal alpha adrenoceptor blockade. Am J Physiol 240:E682–E688PubMedGoogle Scholar
  64. Blake WD (1962) Relative roles of glomerular filtration and tubular reabsorption in denervation diuresis. Am J Physiol 202:777–780PubMedGoogle Scholar
  65. Blantz RC (1980) Segmental renal vascular resistance: single nephron. Annu Rev Physiol 42:573–588CrossRefPubMedGoogle Scholar
  66. Blantz RC, Konnen KS, Tucker BJ (1976) Angiotensin II effects upon the glomerular microcirculation and ultrafiltration coefficient of the rat. J Clin Invest 57:419–434PubMedGoogle Scholar
  67. Blasingham MC, Shade RE, Share L, Nasjletti A (1980) The effect of meclofenamate on renal bood flow in the unanesthetized dog: relation to renal prostaglandins and sodium balance. J Pharmacol Exp Ther 214:1–4PubMedGoogle Scholar
  68. Blaufox MD, Lewis EJ, Jagger P, Lauler D, Hickler R, Merrill JP (1969a) Physiologic respones of the transplanted human kdiney. N Engl J Med 280:62–66PubMedGoogle Scholar
  69. Blaufox MD, Lewis EJ, Jagger P, Lauler D, Hickler R, Merrill JP (1969b) Perseverance of the renal nerves. N Engl J Med 280:448–449Google Scholar
  70. Blendis LM, Auld RB, Alexander EA, Levinsky NG (1972) Effect of renal beta and alpha adrenergic stimulation on proximal sodium reabsorption in dogs. Clin Sci 43:569–576PubMedGoogle Scholar
  71. Block MA, Wakim KG, Mann FC (1952a) Circulation through kidney during stimulation of the renal nerves. Am J Physiol 169:659–669PubMedGoogle Scholar
  72. Block MA, Wakim KG, Mann FC (1952b) Renal function during stimulation of renal nerves. Am J Physiol 169:670–677PubMedGoogle Scholar
  73. Bond GC, Lightfoot B (1981) Role of renal nerves in mediating changes in renin secretion during CPPV. Fed Proc 40:558Google Scholar
  74. Bonjour J-P, Churchill PC, Malvin RL (1969) Change of tubular reabsorption of sodium and water after renal denervation in the dog. J Physiol 204:571–582PubMedGoogle Scholar
  75. Boykin J, Cadnapaphornchai P, Burke T, McDonald KM, Schrier RW (1974) Mechanism of the diuretic effect of atrial tachycardia. Clin Res 22:265AGoogle Scholar
  76. Bricker NS, Staffon RA, Mahoney EP, Merrill JP (1958) The functional capacity of the kidney denervated by autotransplantation in the dog. J Clin Invest 37:185–193PubMedGoogle Scholar
  77. Brod J, Fejfar Z, Fajfarova MH (1954) The role of neuro-humoral factors in the genesis of renal hemodynamic changes in heart failure. Acta Med Scand 148:273–290PubMedGoogle Scholar
  78. Brody M (1962) Mechanisms of renal vasodilatation. Fed Proc 21:111Google Scholar
  79. Brody MJ, Johnson AK (1980) Role of the anteroventral third ventricle region in fluid and electrolyte balance, arterial pressure regulation and hypertension. In: Martini L, Ganong WF (eds) Frontiers in neuroendocrinology, vol 6. Raven, New York, pp 249–292Google Scholar
  80. Brody MJ, Fink GD, Buggy J, Haywood JR, Gordon FJ, Knuepfer M, Mow M, Mahoney L, Johnson AK (1979) Critical role of the anteroventral third ventricle (AV3V) region in development and maintenance of experimental hypertension. In: Meyer P, Schmitt H (eds) Nervous system and hypertension. Flammarion, Paris, pp 76–84Google Scholar
  81. Brosnihan KG, Szilagyi JE, Masaki Z, Ferrario CM (1978) Interaction of sodium and catecholamines on control of blood pressure. Physiologist 21:13Google Scholar
  82. Brown AM (1980) Receptors under pressure. An update on baroreceptors. Circ Res 46:1–10PubMedGoogle Scholar
  83. Burn JH, Rand MJ (1965) Acetylcholine in adrenergic transmission. Annu Rev Pharmacol 5:163–182CrossRefGoogle Scholar
  84. Cacciaguida RJ, Pablo NC, Basilio RD, Porush JG (1969) Antinatriuresis associated with propranolol administration in the dog. Nephron 11:58–64Google Scholar
  85. Calaresu FR, Stella A, Zanchetti A (1976) Hemodynamic responses and renin release during stimulation of afferent renal nerves in the cat. J Physiol 255:687–700PubMedGoogle Scholar
  86. Calaresu FR, Stella A, Zanchetti A (1977) The role of efferent and afferent renal nerves in the release of renin in the cat. In: Buckley JP, Ferrario CM (eds) Central actions of angiotensin and related hormones. Pergamon, New York, pp 113–122Google Scholar
  87. Calaresu FR, Kim P, Nakamura H, Sato A (1978) Electrophysiological characteristics of renorenal reflexes in the cat. J Physiol 283:141–154PubMedGoogle Scholar
  88. Campbell WB, Zimmer JA (1980) Insulin-induced renin release: blockade by indomethacin in the rat. Clin Sci 58:415–428PubMedGoogle Scholar
  89. Campbell WB, Graham RM, Jackson EK (1979) Role of renal prostaglandins in sympathetically mediated renin release in the rat. J Clin Invest 64:448–456PubMedGoogle Scholar
  90. Cant JR, Vander AJ (1973) Sodium excretion and intrarenal distribution of blood flow with small doses of norepinephrine. Fed Proc 32:353Google Scholar
  91. Carlson DE, Schramm LP (1978) Humoral and mechanical factors modulating neural input to the renal vasculature. Am J Physiol 235:R64–R75PubMedGoogle Scholar
  92. Carlsson E, Ablad B, Brandstrom A, Carlsson B (1972) Differentiated blockade of the chronotropic effects of various adrenergic stimuli in the cat heart. Life Sci 11:953–958CrossRefGoogle Scholar
  93. Carrara MC, Baines AD (1976) Propranolol induces acute natriuresis by beta blockade and dopaminergic stimulation. Can J Physiol Pharmacol 54:683–691PubMedGoogle Scholar
  94. Carriere S, Cardinal J, Le Grimmellec CL (1980) Influence of sodium intake on catecholamine release by angiotensin and renal nerve stimulation in dogs. Can J Physiol Pharmacol 58:1092–1101PubMedGoogle Scholar
  95. Caretero OA, Scicli AG (1980) The renal kallikrein-kinin system. Am J Physiol 238:F247–F255PubMedGoogle Scholar
  96. Chaimovitz C, Massry SG, Friedler RM, Coburn JW (1974) Effect of renal denervation and alpha adrenergic blockade on sodium excretion in dogs with chronic ligation of the common bile duct. Proc Soc Exp Biol Med 146:764–770PubMedGoogle Scholar
  97. Chan YL (1980a) The role of norepinephrine in the regulation of fluid absorption in the rat proximal tubule. J Pharmacol Exp Ther 215:65–70PubMedGoogle Scholar
  98. Chan YL (1980b) Adrenergic control of bicarbonate absorption in the proximal convouted tubule of the rat kidney. Pfluegers Arch 388:159–164CrossRefGoogle Scholar
  99. Chapman LW, Mittman U, Meehan JP (1971) Neural effect of cardiac receptors on renal salt excretion. Fed Proc 30:608Google Scholar
  100. Ciriello J, Calaresu FR (1980) Hypothalamic projections of renal afferent nerves in the cat. Can J Physiol Pharmacol 58:574–576PubMedGoogle Scholar
  101. Clement DL, Pelletier CL, Shepherd JT (1972) Role of vagal afferents in the control of renal sympathetic nerves in the rabbit. Circ Res 31:824–830PubMedGoogle Scholar
  102. Click RL, Joyner WL, Gilmore JP (1979) Reactivity of glomerular afferent and efferent arterioles in renal hypertension. Kidney Int 15:109–115PubMedGoogle Scholar
  103. Coleridge HM, Coleridge JCG (1980) Cardiovascular afferents involved in regulation of peripheral vessels. Annu Rev Physiol 42:413–427CrossRefPubMedGoogle Scholar
  104. Colindres RE, Spielman WS, Moss NG, Harrington WW, Gottschalk CW (1980) Functional evidence for renorenal reflexes in the rat. Am J Physiol 239:F265–F270PubMedGoogle Scholar
  105. Concha J, Norris B (1968) Studies on renal vasomotion. Br J Pharmacol 34:277–290PubMedGoogle Scholar
  106. Coote JH, MacLeod VH (1974) The influence of bulbospinal monoaminergic pathway on sympathetic nerve activity. J Physiol 241:453–475PubMedGoogle Scholar
  107. Cornish KG, Gilmore JP (1981) Failure of increased left atrial pressure to alter renal function in the conscious non-human primate. Fed Proc 40:588Google Scholar
  108. Dampney RAL, Stella A, Golin R, Zanchetti A (1979) Vagal and sinoaortic reflexes in postural control of circulation and renin release. Am J Physiol 237:H146–H152PubMedGoogle Scholar
  109. Data JL, Gerber JG, Crump WL, Frohlich JC, Hollifield JW, Nies AS (1978) The prostaglandin system. A role in canine baroreceptor control of renin release. Circ Res 42:454–458PubMedGoogle Scholar
  110. Davila D, Davila T, Oliw E, Anggard E (1978) The influence of dietary sodium on urinary prostglandin excretion. Acta Physiol Scand 103:100–106PubMedGoogle Scholar
  111. Davis HA, Horton EW (1972) Output of prostaglandins from the kidney, its increase on renal nerve stimulation and its inhibition by indomethacin. Br J Pharmacol 46:658–675PubMedGoogle Scholar
  112. Davis JO, Freeman RH (1976) Mechanisms regulating renin release. Physiol Rev 56:1–56PubMedGoogle Scholar
  113. De Chatel R (1978) Mechanism of carotid occlusion diuresis. Acta Physiol Acad Sci Hung 52:367–374PubMedGoogle Scholar
  114. De Forrest JM, Davis JO, Freeman RH, Seymour AA, Row BP, Williams GM, Davis TP (1980) Effects of indomethacin and meclofenamate on renin release and renal hemodynamic function furing chronic sodium depletion in conscious dogs. Circ Res 47:99–107PubMedGoogle Scholar
  115. De Haven J, Sherwin R, Hendler R, Felig P (1980) Nitrogen and sodium balance and sympathetic nervous system activity in obese subjects treated with a low calorie protein or mixed diet. N Engl J Med 302:477–483PubMedGoogle Scholar
  116. De Muylder GG (1952) The “neurility” of the kidney. Blackwell, OxfordGoogle Scholar
  117. De Torrente A, Robertson GL, McDonald KM, Schrier RW (1975) Mechanism of diuretic response to increased left atrial pressure in the anesthetized dog. Kidney Int 8:355–361PubMedGoogle Scholar
  118. DiBona GF (1977) Neurogenic regulation of renal tubular sodium reabsorption. Am J Physiol 233:F73–F81PubMedGoogle Scholar
  119. DiBona GF (1978) Symposium: neural control of renal function. Fed Proc 37:1191–1221Google Scholar
  120. DiBona GF (1981) The role of the renal sympathetic nerves in the control of renal function. In: Worcel M, Bonvalet JP, Langer SZ, Menard J, Sassard J (eds) New trends in arterial hypertension. INSERM Symposium No 17. Elsevier/North Holland, Amsterdam, pp 225–240Google Scholar
  121. DiBona GF, Johns EJ (1980) A study of the role of renal nerves in the renal responses to 60° head-up tilt in the anesthetized dog. J Physiol 299:117–126PubMedGoogle Scholar
  122. DiBona GF, Osborn JL (1981) Nature of renal tubular adrenoceptor medaiting neural regulation of sodium reabsorption. Fed Proc 40:553Google Scholar
  123. DiBona GF, Rios LL (1978) Mechanism of exaggerated diuresis in spontaneously hypertensive rats. Am J Physiol 235:F409–F416Google Scholar
  124. DiBona GF, Rios LL (1980) Renal nerves in compensatory renal responses to contralateral renal denervation. Am J Physiol 238:F26–F30PubMedGoogle Scholar
  125. DiBona GF, Sawin LL (1981) Renal innervation required for renal adaptation to low sodium diet. Clin Res 29:553AGoogle Scholar
  126. DiBona GF, Zambraski EJ, Aguilera AJ, Kaloyanides GJ (1977) Neurogenic control of renal tubular sodium reabsorption in the dog. Circ Res (Supp I) 40:I–127–I–130Google Scholar
  127. DiBona GF, Johns EJ, Osborn JL (1981) The effect of vagotomy on 60° head-up tilt. J Physiol 320:293–302PubMedGoogle Scholar
  128. Dinerstein RJ, Vannice J, Henderson RC, Roth LJ, Goldberg LI, Hoffmann PC (1979) Histofluorescence techniques provide evidence for dopamine-containing neuronal elements in canine kidney. Science 205:497–499PubMedGoogle Scholar
  129. DiSalvo J, Fell C (1971) Changes in renal blood flow during renal nerve stimulation. Proc Soc Exp Biol Med 136:150–153PubMedGoogle Scholar
  130. Diz DI, Baer PG, Nasjletti A (1980) Influence of renal nerves on intrarenal hormonal systems. Fed Proc 39:1084Google Scholar
  131. Diz DI, Nasjletti A, Baer PG (1981) Effect of renal denervation on development of hypertension, plasma renin and urinary excretion of kallikrein, PGE2 and sodium in the New Zealand genetically hypertensive rat. Fed Proc 40:435Google Scholar
  132. Donald DE (1979) Studies on the release of renin by direct and reflex activation of renal sympathetic nerves. Physiologist 22:39–42Google Scholar
  133. Donald DE, Shepherd JT (1978) Reflexes from the heart and lungs: physiological curiosities or important regulatory mechanisms. Cardiovasc Res 12:449–469Google Scholar
  134. Donald DE, Shepherd JT (1980) Autonomic regulation of the peripheral circulation. Annu Rev Physiol 42:429–439CrossRefPubMedGoogle Scholar
  135. Dunham EW, Zimmerman BG (1970) Release of prostaglandin-like material from dog kidney during nerve stimulation. Am J Physiol 219:1279–1285PubMedGoogle Scholar
  136. Dunn MJ, Liard JF, Dray F (1978) Basal and stimulated rates of renal secretion and excretion of prostaglandins E2, F2 and 13,14-dihydro15-keto F2 in the dog. Kidney Int 13:136–143Google Scholar
  137. Echtenkamp SF, Gilmore JP (1980) Intravascular mechanoreceptor modulation of renal sympathetic nerve activity in the cat. Am J Physiol 238:H801–H808PubMedGoogle Scholar
  138. Echtenkamp SF, Zucker IH, Gilmore JP (1980) Characterization of high and low pressure baroreceptor influences on renal nerve activity in Macaca fascicularis. Circ Res 46:726–730PubMedGoogle Scholar
  139. Effendigil MC, Harley A, Deegan T, McKendrick CS (1975) Changes in GFR following myocardial infarction. Cardiovasc Res 9:741PubMedGoogle Scholar
  140. Ehrhart IC, Bond GC, Ginsburg JM (1979) Indomethacin increases renal vascular resistance after adrenergic interruption in the dog. Proc Soc Exp Biol Med 162:112–115PubMedGoogle Scholar
  141. Eliahou HE, Gavendo S, Serban I, Kapuler S, Iaina A (1980) Beta adrenergic receptors in rat kidneys. Proc Int Symp Radionuclides Nephrol Thieme, Stuttgart. 4:106–110Google Scholar
  142. Engelhorn R (1957) Aktionspotentiale der Nierennerven. Arch Exp Pathol Pharmakol 231:219–234Google Scholar
  143. Epstein M (1978) Renal effects of head-out water immersion in man: implications for an understanding of volume homeostasis. Physiol Rev 58:529–581PubMedGoogle Scholar
  144. Epstein SE, Braumwald E (1966) The effect of beta adrenergic blockade on patterns of urinary sodium excretion. Ann Int Med 65:20–27PubMedGoogle Scholar
  145. Epstein M, Lifschitz MD (1980) Volume status as a determinant of the influence of renal PGE on renal function. Nephron 25:157–159PubMedGoogle Scholar
  146. Fater DC, Sundet WD, Schultz HD, Goetz KL (1980) Cardiac denervation eliminates the diuretic response elicited by increasing left atrial pressure with a balloon. Fed Proc 39:951Google Scholar
  147. Fedina L, Katunskii AY, Khayutin VM, Mitsanyi A (1966) Responses of renal sympathetic nerves to stimulation of afferent A and C fibers of tibial and mesenterial nerves. Acta Physiol Acad Sci Hung 29:157–176PubMedGoogle Scholar
  148. Fedina L, Kovach GB, Huszar V (1970) Effect of 1-(4-oxyphenyl)-2Nbutylaminoethanone hydrochlorine (BON) on blood circulation. 3. Effect on the sympathetic nerve fibers of the heart and kidneys. Arzneim Forsch 20:1656–1659Google Scholar
  149. Felder R, Pelyao J, Wargo A, Schoelkopf L, Cooke M, Jose P, Eisner G (1980a) Glomerular adrenergic receptors. Physiologist 23:162Google Scholar
  150. Felder R, Schoekopf L, Pelazo J, Blecher M, Calcagno P, Eisner G, Jose P (1980b) Adrenergic and dopaminergic receptors in glomeruli and cortical tubules. Proc Am Soc Nephrol 13:132AGoogle Scholar
  151. Felder R, Pelayo J, Blecher M, Calcagno P, Eisner G, Jose P (1981) Multiple renal dopamine receptors. Clin Res 29:462AGoogle Scholar
  152. Felder RB, Thames MD (1980) Reflex depressor responses to epicardial bradykinin mediated by cardiac sympathetic afferents. Circ (Supp III) 62:III-135Google Scholar
  153. Ferrario CM, McCubbin JW, Berti G (1976) Centrally mediated hemodynamic effects of angiotensin. In: Onesti G, Fernandez M, Kim KE (eds) Regulation of blood pressure by the central nervous system. Grune and Stratton, New York, pp 175–182Google Scholar
  154. Fewell JE, Bond GC (1979) Renal denervation eliminates the renal response to continuous positive-pressure ventilation. Proc Soc Exp Biol Med 161:574–578PubMedGoogle Scholar
  155. Fink GD, Brody MJ (1978) Neurogenic control of the renal circulation in hypertenson. Fed Proc 37:1202–1208PubMedGoogle Scholar
  156. Fink GD, Bryan WJ (1980) Renal vascular resistance and reactivity in the neurogenic hypertensive rat. Am J Physiol 239:F474–F477PubMedGoogle Scholar
  157. Fink GD, Buggy J, Haywood JR, Johnson AK, Brody MJ (1978) Hemodynamic effects of electrical stimulation of forebrain angiotensin and osmosensitive sites. Am J Physiol 235:H445–H451PubMedGoogle Scholar
  158. Fink GD, Takeshita A, Mark AL, Brody MJ (1980) Determinants of renal vascular resistance in the Dahl strain of genetically hypertensive rat. Hypertension. 2:274–280PubMedGoogle Scholar
  159. Fisher SJ, Mslvin RL (1980) Role of neural pathways in renin response to intravascular volume expansion. Am J Physiol 238:H611–H617PubMedGoogle Scholar
  160. Folkow B, Johannson B, Lofving B (1961) Aspects of functional differentiation of the sympatho-adrenergic control of the cardiovascular system. Med Exp 4:321–328PubMedGoogle Scholar
  161. Francisco LL, DiBona GF (1979) Hemodynamic effects of afferent renal nerve stimulation. Fed Proc 37:1312Google Scholar
  162. Francisco LL, Hoversten LG, DiBona GF (1980a) Renal nerves in the compensatory adaptation to ureteral occlusion. Am J Physiol 238:F229–F234PubMedGoogle Scholar
  163. Francisco LL, Osborn JL, DiBona GF (1980b) The role of prostaglandins in macula densa mediated renin release in the rat. Fed Proc 39:826Google Scholar
  164. Francisco LL, Sawin LL, DiBona GF (1981) Renal sympathetic nerve activity and the exaggerated natriuresis of the spontaneously hypertensive rat. Hypertension 3:134–138PubMedGoogle Scholar
  165. Fray JCS (1980) Stimulus-secretion coupling of renin. Circ Res 47:485–493PubMedGoogle Scholar
  166. Fray JCS, Johnson MD, Barger AC (1977) Renin release and pressor response to renal arterial hypotension: effect of dietary sodium. Am J Physiol 233:H191–H195PubMedGoogle Scholar
  167. Friedman SM, Hinke JAM, Hardwick DF (1955) Sodium tolerance in experimental hypertension. Circ Res 3:297–302PubMedGoogle Scholar
  168. Friggi A, Chevalier-Cholat A-M, Bodard H (1977a) Effects of a beta-adrenergic blocking drug atenolol, on efferent renal nerve activity in rabbits. Experientia 33:1207–1208CrossRefPubMedGoogle Scholar
  169. Friggi A, Chevalier-Cholat A-M, Torresani J (1977b) Reduction of efferent renal nerve activity by propranolol in rabbits. Acad Sci Comptes Rendus 284:1835–1837Google Scholar
  170. Frolich JC, Hollifield JW, Wilson JP, Sweetman BJ, Seyberth HW, Oates JA (1976) Suppression of plasma renin activity in man: independence of sodium retention. Clin Res 24:271Google Scholar
  171. Fukiyama K (1972) Central action of angiotensin and hypertension-increased central vasomotor outflow by angiotensin. Jpn Circ J 36:599–602PubMedGoogle Scholar
  172. Gallardo R, Pang PKT, Sawyer WH (1980) Neural influences on bullfrog renal functions. Proc Soc Exp Biol Med 165:233–240PubMedGoogle Scholar
  173. Gauer OH, Henry JP (1976) Neurohormonal control of plasma volume. In: Guyton AC, Cowley AW (eds) International review of physiology: cardiovasculr physiology II, vol 9. University Park, Baltimore, pp 145–190Google Scholar
  174. Gavendo S, Kapuler S, Serban I, Iania I, Ben-David E, Eliahou H (1980) Beta-1 adrenergic receptors in kidney tubular cell membrane in the rat. Kidney Int 17:764–770PubMedGoogle Scholar
  175. Gazdar A (1969) Perseverance of renal nerves. N Engl J Med 280:448–449Google Scholar
  176. Gazdar AF, Dammin GF (1970) Neural degeneration and regeneration in human renal transplants. N Engl J Med 283:222–224PubMedGoogle Scholar
  177. Gebber GL (1980) Central oscillators responsible for sympathetic nerve discharge. Am J Physiol 239:H143–H155PubMedGoogle Scholar
  178. Gerber JG, Keller RT, Nies AS (1979) Prostaglandins and renin release: the effect of PGI2, PGE2 and 13,14 dihydroxy PGE2 on the baroreceptor mechanism of renin release in the dog. Circ Res 44:796–799PubMedGoogle Scholar
  179. Gerber JG, Olson RD, Nies AS (1980) The importance of the adrenals in the sympathetic mediated increase in plasma renin activity during hypothensive hemorrhage. Circ (Supp III) 62:III–222Google Scholar
  180. Gill JR Jr (1969) The role of sympathetic nervous system in the regulation of sodium excretion by the kidney. In: Ganong WF, Martin L (eds) Frontiers in neuroendocrinology. Oxford Univ, London Toronto, pp 289–305Google Scholar
  181. Gill JR Jr (1979) Neural control of renal tubular sodium reabsorption. Nephron 23:116–118PubMedGoogle Scholar
  182. Gill JR Jr, Bartter FC (1966) Adrenergic nervous system in sodium metabolism. II. Effects of guanethidine on the renal response to sodium deprivation in normal man. N Engl J Med 275:1466–1471PubMedGoogle Scholar
  183. Gill JR Jr, Casper AGT (1969) Role of the sympathetic nervous system in the renal response to hemorrhage. J Clin Invest 48:915–922PubMedGoogle Scholar
  184. Gill JR Jr, Casper AGT (1971) Depression of proximal tubular sodium reabsorption in the dog in response to renal beta adrenergic stimulation by isoproterenol. J Clin Invest 50:112–118PubMedGoogle Scholar
  185. Gill JR Jr, Casper AGT (1972) Effect of renal alpha adrenergic stimulation on proximal tubular sodium reabsorption. Am J Physiol 233:1201–1205Google Scholar
  186. Fill JR Jr, Carr AA, Fleischmann LE, Casper AGT, Bartter, FC (1967) Effects of pentolinium on sodium excretion in dogs with constriction of the vena cava. Am J Physiol 212:191–196PubMedGoogle Scholar
  187. Gilmore JP (1964) Contribution of baroreceptors to the control of renal function. Circ Res 14:301–317PubMedGoogle Scholar
  188. Gilmore JP, Cornish KG, Rogers SD, Joyner WL (1980) Direct evidence for myogenic autoregulation of the renal microcirculation in the hamster. Circ Res 47:226–230PubMedGoogle Scholar
  189. Gilmore JP, Zucker IH (1975) The contribution of atrial stretch receptors to salt and water homeostasis in the human. Basic Res Cardiol 70:355–363CrossRefPubMedGoogle Scholar
  190. Gilmore JP, Zucker IH (1978) Failure of left atrial distention to alter renal function in the nonhuman primate. Circ Res 42:267–270PubMedGoogle Scholar
  191. Goetz KL (1979) A search for evidence linking atrial receptors to renal regulatory mechanism.s In: Hainsworth R, Kidd C, Linden RJ (eds) Cardiac receptors. Cambridge Univ, Cambridge, pp 213–233Google Scholar
  192. Goetz KL, Bond GC (1973) Reflex diuresis during tachycardia in the dog. Circ Res 32:434–441PubMedGoogle Scholar
  193. Goetz KL, Bond GC, Bloxham DD (1975) Atrial receptors and renal function. Physiol Rev 55:157:205PubMedGoogle Scholar
  194. Goetz KL, Wang BC, Hakumaki MOK, Fater DC, Geer PG, Sundet WD (1981) Cardiovascular, renal and humoral effects of applying local anesthetic to the atria of conscious dogs. Proc Soc Exp Biol Med 167:101–109PubMedGoogle Scholar
  195. Goldberg LI (1979) The dopamine vascular receptor. In: Imbs JL, Schwartz J (eds) Peripheral dopaminergic receptors: Proceedings of the satellite symposium of the 7th International Congress of Pharmacology. Pergamon, New York, pp 408Google Scholar
  196. Goldberg LI, Kohli JD (1979) Peripheral pre-and post-synaptic dopamine receptors: are they different from dopamine receptors in the central nervous system? Commun Psychopharmacol 3:447–456PubMedGoogle Scholar
  197. Goldberg LI, Weder AB (1980) Connections between endogenous dopamine, dopamine receptors and sodium excretion: evidences and hypotheses. Rec Adv Clin Pharmacol 3:149–166Google Scholar
  198. Goldberg LI, Volkman PH, Kohli JD (1978) A comparison of the vascular dopamine receptor with other dopamine receptors. Annu Rev Pharmacol Toxicol 18:57–79CrossRefPubMedGoogle Scholar
  199. Golin R, Busnardo I, Stella A, Zanchetti A (1980) Effects of afferent renal stimulation on renal functions and hemodynamics. Eur J Clin Invest 10:14Google Scholar
  200. Gomer SK, Zimmerman BG (1972) Determination of sympathetic vasodilator responses during renal nerve stimulation. J Pharmacol Exp Ther 181:75–82PubMedGoogle Scholar
  201. Gomez DM (1951) Evaluation of renal resistances with specific reference to changes in essential hypertension. J Clin Invest 30:1143–1155PubMedGoogle Scholar
  202. Gordon D, Peart WS, Wilcox CS (1979) Requirement of the adrenergic nervous system for conservation of sodium by the rabbit kidney. J Physiol 293:24PGoogle Scholar
  203. Gorgas K (1978a) Innervation of the juxtaglomerular apparatus. In: Coupland RE, Forssman WG (eds) Peripheral neuroendocrine interaction. Springer, Berlin Heidelberg New York, pp 144–152Google Scholar
  204. Gorgas K (1978b) Struktur und Innervation des juxtaglomerularen Apparates der Ratte. Adv Anat 54:1–84Google Scholar
  205. Gottschalk CW (1978) Symposium: Control of kidney function by the nervous system. Proc Int Cong Nephrol 8:544–571Google Scholar
  206. Gottschalk CW (1979) Renal nerves and sodium excretion. Annu Rev Physiol 41:229–240CrossRefPubMedGoogle Scholar
  207. Graham RM, Brabson JH, Stephenson WH, Pettinger WA (1978) Increased renal alpha adrenergic receptors in genetically hypertensive rats. Clin Res 26:363AGoogle Scholar
  208. Graham RM, Sagalowsky AI, Pettinger WA, Murphy T, Gandler T, Sanford SE (1980) Renal alpha receptors in experimental hypertension in the rat. Fed Proc 39:497Google Scholar
  209. Grandjean B, Annat G, Vincent M, Sassard J (1978) Influence of renal nerves on renin secretion in the conscious dog. Pfluegers Arch 373:161–165CrossRefGoogle Scholar
  210. Greven J, Klein H (1977) Effects of dopamine on whole kidney function and proximal transtubular volume fluxes in the rat. Naunyn Schmiedebergs Arch Pharmacol 296:289–292CrossRefPubMedGoogle Scholar
  211. Grignolo A, Koepke JP, Obrist PA (1980) Urine and sodium output and glomerular filtration rate during treadmill exercise and shock-avoidance in saline-infused dogs. Physiologist 23:105Google Scholar
  212. Gross R, Kirchheim H (1980) Effects of bilateral carotid occlusion and auditory stimulation on renal blood flow and sympathetic nerve activity in the conscious dog. Pfluegers Arch 383:233–239CrossRefGoogle Scholar
  213. Gross R, Ruffman K, Kirchheim H (1979 The separate and combined influences of common carotid occlusion and nonhypotensive hemorrhage on kidney blood flow. Pfluegers Arch 379:81–88CrossRefGoogle Scholar
  214. Gross R, Kirchheim H, Ruffmann K (1981a) Effect of carotid occlusion and of perfusion pressure on renal function in conscious dogs. Circ Res 48:774–784Google Scholar
  215. Gross R, Hackenburg H-M, Hackenthal E, Kirchheim H (1981b) Interaction between perfusion pressure and sympathetic nerves in renin release by carotid baroreflex in conscious dogs. J Physiol 313:237–250PubMedGoogle Scholar
  216. Grossman RA, Rosing DR, Szidon JP, Goldberg M (1974) The polyuria of paroxysmal tachycardia: mode and mechanism. Clin Res 221:572AGoogle Scholar
  217. Hall JE, Guyton AD, Cowley AW (1977a) Dissociation of renal blood flow and filtration rate autoregulation by renin depletion. Am J Physiol 232:F215–F221PubMedGoogle Scholar
  218. Hall JE, Guyton AC, Jackson TE, Coleman TG, Lohmeier TE, Trippodo NC (197b) Control of glomerular filtration rate by renin-angiotensin system. Am J Physiol 233:F366–F372Google Scholar
  219. Heinbecker P, White HL (1941) Hypothalamicohypophyseal system and its relationship to water balance in the dog. Am J Physiol 133:582–593Google Scholar
  220. Henrich WL, Anderson RJ, Berns AS, McDonald KM, Paulsen PJ, Berl T, Schrier RW (1978) The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog. J Clin Invest 61:744–750PubMedGoogle Scholar
  221. Henrich WL, Schrier RW, Berl T (1979) Mechanisms of renin secretion during hemorrhage in the dog. J Clin Invest 64:1–7PubMedGoogle Scholar
  222. Hermansson K, Larson M, Kallskog O, Wolgast M (1981) Influence of renal nerve activity on arteriolar resistance, ultrafiltration dynamics and fluid reabsorption. Pfluegers Arch 389:85–90CrossRefGoogle Scholar
  223. Hiatt N, Chapman LW, Davidson MB (1981) Neural factor in K homeostasis of hyperkalemic ureter-ligated dogs. Proc Soc Exp Biol Med 166:501–505PubMedGoogle Scholar
  224. Higashi Y, Bello-Reuss E (1980) Dopamine decreases fluid reabsorption in straight portions of isolated proximal tubule. Clin Res 28:749AGoogle Scholar
  225. Hillemand B, Leroy J, Joly JP, Le Grix A (1976) Effects of the nervous system on the kidney. Sem Hop Paris 52:958–963, 1163–1172PubMedGoogle Scholar
  226. Hilton SM, Spyer KM (1980) Central nervous regulation of vascular resistance. Annu Rev Physiol 42:399–411CrossRefPubMedGoogle Scholar
  227. Himori N, Hayakawa S, Ishimori T (1979) Role of beta-1 and beta-2 adrenoceptors in isoproterenol induced renin release in conscious dogs. Life Sci 24:1953–1958CrossRefPubMedGoogle Scholar
  228. Himori N, Izumi A, Ishimori T (1980) Analysis of beta-adrenoceptors mediating renin release produced by isoproterenol in conscious dogs. Am J Physiol 238:F387–F393PubMedGoogle Scholar
  229. Hoffman BB, Lefkowitz RJ (1980) Radioligand binding studies of adrenergic receptors: new insights into molecular and physiological regulation. Annu Rev Pharmacol Toxicol 20:581–608CrossRefPubMedGoogle Scholar
  230. Holdaas H, DiBona GF (1981) The role of left atrial receptors in the regulation of renin release in anesthetized dogs. Acta Physiol Scand 111:497–500Google Scholar
  231. Holdaas H, DiBona GF, Kiil F (1981) Effect of low-level renal nerve stimulation on renin release from nonfiltering kidneys. Am J Physiol 241:F156–F161PubMedGoogle Scholar
  232. Hollenberg NK, Adams DF, Rashid A, Epstein M, Abrams HL, Merrill JP (1971) Renal vascular response to salt restriction in normal man. Circulation 43:845–851PubMedGoogle Scholar
  233. Hollenberg NK, Adams DF, Solomon H, Chenitz WR, Burger BM, Abrams HL, Merrill JP (1975) Renal vascular tone in essential and secondary hypertension. Medicine 54:29–44PubMedGoogle Scholar
  234. Hollingsead P, Willis LR (1980) Beta adrenergic receptor mediated renal tubular sodium reabsorption. Fed Proc 39:521Google Scholar
  235. Honig A (1979) Electrolytes, body fluid volumes and renal function in acute hypoxic hypoxia: role of arterial chemoreceptors. Acta Physiol Pol (Suppl 18) 30:93–125PubMedGoogle Scholar
  236. Honig A, Schmidt M (1980) Kidney function during carotid chemoreceptor stimulation: influence of unilateral renal nerve section. In: Lichardus B, Schrier RW, Ponec J (eds) Hormonal regulation of sodium excretion. Elsevier/North Holland, Amsterdam, pp 93–98Google Scholar
  237. Honig A, Schmidt M, Freyse EJ (1979) Influence of unilateral renal nerve section on the kidney: effects of carotid chemoreceptor stimulation. Acta Biol Med Ger 38:1647–1650PubMedGoogle Scholar
  238. Houck CR (1951) Alterations in renal hemodynamics and function in separate kidneys during stimulation of renal artery nerves in dogs. Am J Physiol 167:523–530PubMedGoogle Scholar
  239. Humphreys MH, Ayus JC (1978) Role of hemodynamic changes in the increased cation excretion after acute unilateral nephrectomy in the anesthetized dog. J Clin Invest 61:590–596PubMedGoogle Scholar
  240. Humphreys MH, Ayus JC, Stanton CJ (1980) Prevention by vagotomy or atropine administration of the hemodynamic changes occurring after acute unilateral nephrectomy in the dog. Circ Res 46:575–580PubMedGoogle Scholar
  241. Iino Y, Brenner BM (1979) Stimulation of chloride transport by isoproterenol in isolated rabbit cortical collecting tubule. Kindey Int 16:821Google Scholar
  242. Iino Y, Flier SR, Brenner BM (1979) Effects of catecholamines on transepithelial potential difference and net water reabsorption in isolated rabbit cortical collecting tubule. Clin Res 27:418AGoogle Scholar
  243. Insel PA, Snavely MD (1981) Catecholamines and the kidney: receptors and renal function. Annu Rev Physiol 43:625–636CrossRefPubMedGoogle Scholar
  244. Jarecki M, Thoren PN, Donald DE (1978) Release of renin by the carotid baroreflex in anesthetized dogs. Role of cardiopulmonary vagal afferents and renal arterial pressure. Circ Res 42:614–619PubMedGoogle Scholar
  245. Jarrott B, Louis WJ, Somers RJ (1979) Characteristics of [3H] clonidine binding to an alpha adrenoceptor in membranes from guinea pig kindey. Br J Pharmacol 65:663–670PubMedGoogle Scholar
  246. Johns EJ (1979) Action of angiotensin I converting enzyme inhibitor on the control of renal function in the cat. Clin Sci 56:365–371PubMedGoogle Scholar
  247. Johns EJ (1980) A comparison of the ability of two angiotensin II receptor blocking drugs, 1-sar, 8-ala angiotensin II and 1-sar, 8-ile angiotensin II, to modify the regulation of glomerular filtration rate in the cat. Br J Pharmacol 71:499–506PubMedGoogle Scholar
  248. Johns EJ (1981) An investigation into the type of beta adrenoceptor mediating sympathetically activated renin release in the cat. Br J Pharmacol 73:749–754PubMedGoogle Scholar
  249. Johns EJ, Lewis BA, Singer B (1976) The sodium retaining effect of renal nerve activity in the cat: role of angiotensin formation. Clin Sci 51:93–102Google Scholar
  250. Johns EJ, Murdock R, Singer B (1977) The effect of agniotensin I converting enzyme inhibitor on the release of prostaglandins by rabbit kidney in vivo. Br J Pharmacol 60:573–581PubMedGoogle Scholar
  251. Johnson MD, Barger AC (1981) Circulating catecholamines in control of renal electrolyte and water excretion. Am J Physiol 240:F192–F199PubMedGoogle Scholar
  252. Johnson MD, Malvin RL (1977) Stimulation of renal sodium reabsorption by angiotensin II. Am J Physiol 232:F298–F306PubMedGoogle Scholar
  253. Johnson MD, Fahri ER, Troen BR, Barger AC (1979a) Plasma epinephrine and control of plasma renin activity: possible extrarenal mechanisms. Am J Physiol 236:H854–H859PubMedGoogle Scholar
  254. Johnson MD, Shier DN, Barger AC (1979b) Circulating catecholamines and control of plasma renin activity in conscious dogs. Am J Physiol 236:H463–H470PubMedGoogle Scholar
  255. Judy WV, Farrell SK (1979) Arterial baroreceptor reflex control of sympathetic nerve activity in the spontaneously hypertensive rat. Hypertension 1:605–614PubMedGoogle Scholar
  256. Judy WV, Thompson JR, Wilson MF (1971) Effect of isotonic saline loading on renal nerve activity and renal function. Physiologist 14:169Google Scholar
  257. Judy WV, Watanabe AM, Henry DP, Besch HR Jr, Murphy WR, Hockel GM (1976) Sympathetic nerve activity. Role in regulation of blood pressure in spontaneously hypertensive rat. Circ Res (Suppl II) 38:21–29PubMedGoogle Scholar
  258. Kaczmarczyk G, Eigenheer F, Gatzka M, Kuhl U, Reinhardt HW (1978) No relation between atrial natriuresis and renal blood flow in conscious dogs. Pfluegers Arch 373:49–58CrossRefGoogle Scholar
  259. Kaczmarczyk G, Schimmrick B, Mohnhaupt R, Reinhardt HW (1979) Atrial pressure and postprandial volume regulation in conscious dogs. Pfluegers Arch 381:143–150CrossRefGoogle Scholar
  260. Kaczmarczyk G, Echt M, Mohnhaupt R, Simgen B, Reinhardt H-W (1980) Postprandial volume regulation and renin angiotensin system in conscious dogs. Proc Int Union Physiol Sci 14:154Google Scholar
  261. Kady NN (1974) Functional aspects of the renal innervation. Ph.D. Thesis, University of LondonGoogle Scholar
  262. Kahl FR, Flint JF, Szidon FP (1974) Influence of left atrial distention on renal vasomotor tone. Am J Physiol 226:240–246PubMedGoogle Scholar
  263. Kalsner S, Chan CC (1979) Adrenergic antagonists and the presynaptic receptor hypothesis in vascular tissue. J Pharmacol Exp Ther 211:257–264PubMedGoogle Scholar
  264. Kampine JP, Bosnjak ZJ, Coon RI, Kostreva DR, Seagard JL, Zuperku EJ (1980) The role of cardiopulmonary reflexes in the regulation of sympathetic nerve activity. Proc Int Union Physiol Sci 14:154–155Google Scholar
  265. Kaplan SA, Rapaport S (1951) Urinary excretion of sodium and chloride after splanchnicotomy. Effect on the proximal tubule. Am J Physiol 164:175–186PubMedGoogle Scholar
  266. Kappagoda CT (1979) Atrial receptors and urine flow. In: Hainsworth R, Kidd C, Linden RJ (eds) Cardiac receptors. Cambridge Univ, Cambridge, pp 193–212Google Scholar
  267. Kappagoda CT, Linden RJ, Snow HM (1973) Effect of stimulating right atrial receptors on urine flow in the dog. J Physiol 235:493–502PubMedGoogle Scholar
  268. Kappagoda CT, Linden RJ, Snow HM Whitaker EM (1974) Left atrial receptors and the antidiuretic hormone. J Physiol 221:427–440Google Scholar
  269. Kappagoda CT, Linden RJ, Snow HM, Whitaker EM (1975) Effect of destruction of the posterior pituitary on the diuresis from left atrial receptors. J Physiol 244:757–770PubMedGoogle Scholar
  270. Kappagoda CT, Knapp MF, Linden RJ, Pearson MJ, Whitaker EM (1979a) Diuresis from left atrial receptors: effect of plasma on the secretion of the malphigian tubules of rhodnius prolixus. J Physiol 291:381–391PubMedGoogle Scholar
  271. Kappagoda CT, Linden RJ, Sreeharan N (1979b) The role of renal nerves in the diuresis and natriuresis caused by stimulation of atrial receptors. J Physiol 287:17P–18PPubMedGoogle Scholar
  272. Karim F, Kappagoda T (1980) Interaction of the influences of arterial baroreceptors and left atrial receptors on renal blood flow. Physiologist 23:42Google Scholar
  273. Karim F, Kidd C, Malpus CM, Penna PE (1972) Effects of stimulation of the left atrial receptors on sympathetic efferent nerve activity. J Physiol 227:243–260PubMedGoogle Scholar
  274. Kass DA, Sulzman FM, Fuller CA, Moore-Ede MC (1980) Renal responses to central vascular expansion are suppressed at night in conscious primates. Am J Physiol 239:F343–F351PubMedGoogle Scholar
  275. Katholi RE, Naftilan AJ, Oparil S (1980a) Importance of renal sympathetic tone in the development of DOCA-salt hypertension in the rat. Hypertension 2:266–273PubMedGoogle Scholar
  276. Katholi RE, Winternitz SR, Oparil S (1981b) Role of the venal nerves in the pathogenesis of one-kidney renal hypertension in the rat. Circulation (Suppl III) 62:III–88; Hypertension 3:404–409Google Scholar
  277. Katholi RE, Winterntiz SR, Oparil S (1981) Alterations in peripheral sympathetic activity following renal denervation in one-kidney one-clip Goldblatt hypertension in the rat. Clin Res 29:358AGoogle Scholar
  278. Katz MA, Shear L (1975) Effects of renal nerves on renal hemodynamics. II. Renal denervation models. Nephron 14:390–397PubMedGoogle Scholar
  279. Keeton TK, Campbell WB (1980) The pharmacologic alteration of renin release. Pharmacol Rev 32:81–212PubMedGoogle Scholar
  280. Kendrick E, Oberg B, Wennergren G (1972) Vasoconstrictor fiber discharge to skeletal muscle kidney, intestine and skin at varying levels of arterial baroreceptor activity in the cat. Acta Physiol Scand 85:464–476PubMedGoogle Scholar
  281. Kezdi P, Geller E (1968) Baroreceptor control of postganglionic sympathetic nerve discharge. Am J Physiol 214:427–435PubMedGoogle Scholar
  282. Kim JK, Linas SL, Schrier RW (1979) Catecholamines and sodium transport in the kidney. Pharmacol Rev 31:169–178PubMedGoogle Scholar
  283. Kinney MJ, Stein RM, Discala VA (1974) The polyuria of paroxysmal atrial tachycardia. Circulation 50:429–435PubMedGoogle Scholar
  284. Kiowski W, Julius S (1978) Renin Response to stimulation of cardiopulmonary mechanorecpeotrs in man. J Clin Invest 62:656–663PubMedGoogle Scholar
  285. Kirchheim H (1976) Systemic arterial baroreceptor reflexes. Physiol Rev 56:100–176PubMedGoogle Scholar
  286. Kirchheim HR, Gross R (1978) Response of renal blood flow and renal sympathetic nerve activity to baroreceptor and emotional stimuli in the conscious dog. In: Bauer RD, Busse R (eds) The arterial system. Springer, Berlin Heidelberg New York, pp 203–208Google Scholar
  287. Klein LA, Liberman B, Laks M, Kleeman CR (1971) Interrelated effects of antidiuretic hormone and adrenergic drugs on water metabolism. Am J Physiol 221:1657–1665PubMedGoogle Scholar
  288. Kline RL, Mercer PF (1980a) Functional reinnervation and development of supersensitivity to NE after renal denervation. Am J Physiol 238:R353–R358PubMedGoogle Scholar
  289. Kline RL, Mercer PF (1980b) Inhibition of angiotensin I convertin enzyme prevents hypertension due to aortic depressor nerve transection in rats. Physiologist 23:64Google Scholar
  290. Kline RL, Kelton PM, Mercer PF (1978) Effect of renal denervation on the development of hypertension in spontaneously hypertensive rats. Can J Physiol Pharmacol 56:818–822PubMedGoogle Scholar
  291. Kline RL, Stuart PJ, Mercer PF (1980a) Effect of renal denervation on arterial pressure and renal norepinephrine concentration in Wistar-Kyoto and spontaneously hypertensive rats. Can J Physiol Pharmacol 58:1384–1388PubMedGoogle Scholar
  292. Kline RL, Ciriello J, Mercer PF (1980b) Effect of renal denervation on changes in arterial pressure after aortic depressor nerve transection in the rat. Fed Proc 39: 962Google Scholar
  293. Knapp MF, Linden RJ, Mary DASG, Pearson MJ (1980) Role of angiotensin II and bradykinin in the diuresis caused by stimulation of atrial receptors. Q J Ex Physiol 65:335–347Google Scholar
  294. Knox FG, Burnett JC Jr, Kohan DE, Spielman WS, Strand JC (1980) Escape from the sodium-retaining effects of mineralocorticoids. Kidney Int 17:263–276PubMedGoogle Scholar
  295. Knuepfer MM, Mohrland JS, Shaffer RA, Gebhart GF, Johnson AK, Brody MJ (1980) Effects of afferent renal nerve stimulation and baroreceptor activation on unit activity in the anteroventral third ventricle region. Red Proc 39:837Google Scholar
  296. Koepke JP, Grignolo A, Obrist PA (1981) Decreased urine and sodium excretion rates during signalled shock-avoidance in dogs: role of beta-adrenergic receptors. Fed Proc 40:553Google Scholar
  297. Kopp U (1980) Mechanisms involved in the neural control of renin release. Ph.D. Dissertation, University of Goteborg, Goteborg, SwedenGoogle Scholar
  298. Kopp U, Aurell M, Nilsson IM, Ablad B (1980a) The role of beta-1 adrenoceptors in the renin release response to graded renal sympathetic nerve stimulation. Pfluegers Arch 387:107–113CrossRefGoogle Scholar
  299. Kopp U, Hjemdahl P, Eriksson B-M, Bradley T (1980b) Release of endogenous noradrenaline and dopamine from blood perfused canine kidney in situ: effects of metoprolol, phenoxybenzamine and indomethacin. Naunyn Schmiedebergs Arch Pharmacol (Suppl) 313:R21Google Scholar
  300. Kopp U, Aurell M, Sjolander M, Ablad B (1981a) The role of prostaglandins in the alpha and beta-adrenoceptor mediated renin release response to graded renal nerve stimulation. Pfluegers Arch 391:1–8CrossRefGoogle Scholar
  301. Kopp U, Aurell M, Svensson L, Ablad B (1981b) Effects of prenalterol, a beta-1 adrenoceptor agonist, on renal function in anesthetized dogs. Acta Pharmacol Toxicol 49:230–235Google Scholar
  302. Kostreva DR, Castaver A, Kampine JP (1980) Reflex effects of hepatic baroreceptors on renal and cardiac sympathetic nerve activity. Am J Physiol 238:R390–R394PubMedGoogle Scholar
  303. Kostreva DR, Seagard JL, Castaner A, Kampine JP (1981) Reflex effects of renal afferents on the heart and kidney. Am J Physiol 241:R286–R292PubMedGoogle Scholar
  304. Kottra G, Takacs L (1980) Non-occurrence of a reno-renal vasoconstrictor reflex induced by acetylcholine in anesthetized dogs. Proc Int Union Physiol Sci 14:525Google Scholar
  305. Kottra G, Albert K, Takacs L (1978) Effects of isotonic volume expansion on renal nervous activity and renal function in the rat. Renal Physiol 1:296–300Google Scholar
  306. Kurkus J, Sadowski J, Gellert R, Krus S (1980) Influence of renal denervation on urine concentration in awake and anesthetized dogs. Eur J Clin Invest 10:463–467PubMedGoogle Scholar
  307. La Grange RG, Mitchell SW (1978) Evidence for a neural component of the saluretic-diuretic response to atrial tachycardia. Clin Res 26:468AGoogle Scholar
  308. La Grange RG, Sloop CH, Schmid HE (1973) Selective stimulation of renal nerves in the anesthetized dog. Circ Res 33:704–712PubMedGoogle Scholar
  309. Lappe RW, Henry DOP, Willis LR (1980a) Mechanism of renal tubular secretion of norepinephrine in the rabbit. J Pharmacol Exp Ther 125:443–449Google Scholar
  310. Lappe RW, Henry DP, Willis LR (1980b) Effects of renal sympathetic nerve activity on the urinary excretion of endogenous norepinephrine. Pharmacologist 22:257Google Scholar
  311. Larsson C, Weber P, Anggard E (1974) Arachidonic acid increases and indomethacin decreases plasma renin activity in the rabbit. Eur J Pharmacol 28:391–394CrossRefPubMedGoogle Scholar
  312. Lazzara R, Carson RP, Klain GJ (1970) Diuresis initiated by coronary stretch receptors: a neurogenic mechanism for intravascular volume homeostatsis. Fed Proc 29:460Google Scholar
  313. Leavitt ML, Miller RE, Kotchen TA (1980) Suppression of stimulated plasma renin by clonidine in the dog. Hypertension 2:187–191PubMedGoogle Scholar
  314. Ledsome JR, Linden RJ (1968) The role of left atrial receptors in the diuretic response to left atrial distension. J Physiol 198:487–503PubMedGoogle Scholar
  315. Lees P (1968) The influence of beta adrenoceptive receptor blocking agents on urinary function in the rat. Br J Pharmacol 34:429–444PubMedGoogle Scholar
  316. Levinsky NG (1979) The renal kallikrein-kinin system. Circ Res 44:441–459PubMedGoogle Scholar
  317. Liang CC (1979) The influence of hepatic portal circulation on urine flow. J Physiol 214:571–581Google Scholar
  318. Liard JF (1976) Renal denervation delays blood pressure increase in the spontaneously hypertensive rat. Experientia 33:339–342CrossRefGoogle Scholar
  319. Lifschitz MD (1978) Lack of a role for the renal nerves in renal sodium reabsorption in conscious dogs. Clin Sci 54:567–572Google Scholar
  320. Linden RJ (1975) Reflexes from the heart. Proc Cardiovasc Dis 18:102–221Google Scholar
  321. Linden RJ (1978) Neurocirculatory control of sodium and water excretion. In: Dickenson CJ, Marks J (eds) Developments in cardiovascular medicine. MTP, Lancaster, pp 191–203Google Scholar
  322. Linden RJ, Sreeharan N (1979) Does the renal humoral response to stimulation of atrial receptors include a natriuresis? J Physiol 291:43P–44PPubMedGoogle Scholar
  323. Linden RJ, Mary DASG, Weatherill D (1979) The response of renal nerve inhibition of atrial receptors during changes in carotid sinus pressure in the dog. J Physiol 290:32P–33PPubMedGoogle Scholar
  324. Linden RJ, Mary DASG, Weatherill D (1980) The nature of the atrial receptors responsible for a reflex decrease in activity in renal nerves in the dog. J Physiol 300:31–40PubMedGoogle Scholar
  325. Livnat A, Zehr JE (1980) Reflex inhibition of renin secretion and induced renal vasodilatation following acute left circumflex occlusion in dogs. Physiologist 23:127Google Scholar
  326. Ljungqvist A (1975) Effect of angiotensin infusion, sodium loading and sodium restriction on renal and cardiac sympathetic nerves. Acta Pathol Microbiol Scand 83:661–668Google Scholar
  327. Lloyd TC, Friedman JJ (1977) Effect of a left atrium-pulmonary vein baroreflex on peripheral vascular beds. Am J Physiol 233:H587–H591PubMedGoogle Scholar
  328. MacFarlane MD (1970) A renorenal vasoconstrictor reflex induced by acetylcholine. Am J Physiol 218:851–856PubMedGoogle Scholar
  329. Mahoney LT, Haywood JR, Packwood WJ, Johnson AK, Brody MJ (1978) Effect of anteroventral third ventricle (AV3V) lesions on regional hemodynamic responses to renal afferent nerve stimulation. Circulation (Suppl II) 58:II–68PubMedGoogle Scholar
  330. Mancia G, Donald DE, Shepherd JT (1973) Inhibition of adrenergic outflow to peripheral blood vessels by vagal afferents from the caridiopulmonary region in the dog. Circ Res 33:713–721PubMedGoogle Scholar
  331. Mancia G, Romero JC, Strong CG (1974) Neural influence on canine renal prostaglandin secretion. Acta Physiol Lat Am 24:555–560PubMedGoogle Scholar
  332. Mancia G, Shepherd JT, Donald DE (1976) Interplay among carotid sinus, cardiopulmonary and carotid body reflexes in dogs. Am J Physiol 230:19–24PubMedGoogle Scholar
  333. Mason JM, Ledsome JR (1974) Effects of obstruction of the mitral orifice or distention of the pulmonary vein-atrial junction on renal and hind limb vascular resistance in the dog. Circ Res 35:24–32PubMedGoogle Scholar
  334. McCall RB, Gebber GL (1976) Differential effect of baroreceptor reflexes and clonidine on frequency components of sympathetic discharge. Eur J Pharmacol 36:69–78CrossRefPubMedGoogle Scholar
  335. McGiff JC, Crowshaw K, Terragno NA, Linigro AJ, Strand JC, Williamson MA, Lee JB, Ng, KKF (1970) Prostaglandin-like substances appearing in canine renal venous blood during renal ischemia. Circ Res 27:765–782PubMedGoogle Scholar
  336. McGiff JC, Crowshaw K, Terragno NA, Malik KU, Lonigro AJ (1972) Differential effect of noradrenaline and renal nerve stimulation on vascular resistance in the dog kidney and the release of a prostaglandin E-like substance. Clin Sci 42:223–233PubMedGoogle Scholar
  337. Mills IH, Osbaldiston GW (1968) The effect of stretch of the right atrium on arterial pressure and renal function in the dog. J Physiol 197:40–41PGoogle Scholar
  338. Minneman KP, Pittman RN, Molinoff PB (1981) Beta-adrenergic receptor subtypes: properties, distribution and regulation. Annu Rev Neurosci 4:419–461CrossRefPubMedGoogle Scholar
  339. Mitchell GAG (1950) The nerve supply ofthe kidneys. Acta Anat 10:1–37PubMedGoogle Scholar
  340. Montgomery S, Jose P, Spiro P, Slotkoff L, Eisner G (1979) Regional differences in the canine kdiney cortex. Proc Soc Exp Biol Med 162:260–263PubMedGoogle Scholar
  341. Morel F (1981) Sites of hormone action in the mammalian nephron. Am J Physiol 240:F159–F164PubMedGoogle Scholar
  342. Morel F, Imbert-Teboul M, Chabardes D (1981) Distribution of hormone-dependent adenylate cyclase in the nephron and its physiological significance. Annu Rev Physiol 43:569–581CrossRefPubMedGoogle Scholar
  343. Morgunov N (1980) Norepinephrine and dopamine release by renal nerves. Ph.D. Thesis. University of TorontoGoogle Scholar
  344. Morgunov N, Baines AD (1981a) Renal nerves and catecholamine excretion. Am J Physiol 240:F75–F81PubMedGoogle Scholar
  345. Morgunov N, Baines AD (1981b) Vagal afferent activity and renal nerve release of dopamine. Clin Res 29:471AGoogle Scholar
  346. Moss NG, Harrington WW (1980) Renal nerves and the reflex control of sodium excretion. Clin Res 28:535AGoogle Scholar
  347. Moss NG, Harrington WW (1981) Reinnervation of the kidney following nerve crush. Fed Proc 40:553Google Scholar
  348. Mroczek WJ, Davidov M, Gabrilovich L, Finnerty FA (1970) The response of hypertensive patients to a hypertonic saline load after beta-adrenergic blockade. Clin Res 18:511Google Scholar
  349. Mullins MM, Banks RO (1976) Age related changes in sodium excretion in saline loaded spontaneously hypertensive rats. Am J Physiol 231:1364–1370PubMedGoogle Scholar
  350. Mursch DA, Bishop VS (1980) Effects of vagal cold block on plasma renin activity and renin secretion in the conscious dog. Fed Proc 39:840Google Scholar
  351. Myers BD, Deen WD, Brenner BM (1975) Effects of norepinephrine and angiotensin II on the determinants of glomerular ultrafiltration and proximal tubule fluid reabsorption in the rat. Circ Res 37:101–110PubMedGoogle Scholar
  352. Nagatsu T, Rurt LA, Dequattro V (1969) The activity of tyrosine hydroxylase and related enzymes of catecholamine synthesis and metabolism in dog kidney: effect of denervation. Biochem Pharmacol 18:1441–1446CrossRefPubMedGoogle Scholar
  353. Nies AS, McNeil JS, Schrier RW (1971) Mechanism of increased sodium reabsorption during propranolol administration. Circ 44:596–604Google Scholar
  354. Niijima A (1971) Afferent discharges from arterial mechanoreceptors in the kidney of the rabbit. J Physiol 219:477–485PubMedGoogle Scholar
  355. Niijima A (1972a) Studies on the blood pressure sensitive receptors in the rabbit kidney in vivo. Jpn J Physiol 22:433–440PubMedGoogle Scholar
  356. Niijima A (1972b) The effect of discharges in renal nerves on the activity of arterial mechanoreceptors in the kidney in rabbit. J Physiol 222:335–343PubMedGoogle Scholar
  357. Niijima A (1975) Observation on the localization of mechanoreceptors in the kidney and afferent nerve fibers in the renal nerves in the rabbit. J Physiol 245:81–90PubMedGoogle Scholar
  358. Niijima A (1976) Baroreceptor effects on renal and adrenal nerve activity. Am J Physiol 230:1733–1736PubMedGoogle Scholar
  359. Ninomiya I, Fujita S (1976) Reflex effects of thermal stimulation on sympathetic nerve activity to skin and kidney. Am J Physiol 230:271–278PubMedGoogle Scholar
  360. Ninomiya I, Irisawa H, Woolley G (1974) Intestinal mechanoreceptor reflex effects on sympathetic nerve activity to intestine and kidney Am J Physiol 227:684–691PubMedGoogle Scholar
  361. Noland PL, Reid IA (1978) Mechanism of suppression of renin secretion by clonidine in the dog. Circ Res 42:206–211PubMedGoogle Scholar
  362. Nomura G, Kurosaki M, Takabatake T, Kibe Y, Takeuchi J (1972) Reinnervation and renin release after unilateral renal denervation in the dog. J Appl Physiol 33:649–655PubMedGoogle Scholar
  363. Nomura G, Kibe Y, Arai S, Uno D, Takeuchi J (1976) Distribution of intrarenal blood flow after renal denervation in the dog. Nephron 16:126–133PubMedGoogle Scholar
  364. Nomura G, Takabatake T, Arai S, Uno D, Shimao M, Hattori N (1977) Effect of acute unilateral renal denervation on tubular sodium reabsorption in the dog. Am J Physiol 232:F16–F19PubMedGoogle Scholar
  365. Nomura G, Arai S, Uno D, Shimao M, Takata M, Takabatake T, Hattori N (1978) Effect of propranolol on sodium reabsorption and the renal circulation. Renal Physiol 1:132–139Google Scholar
  366. Noresson E, Ricksten S-E, Thoren P (1979) Left atrial pressure in normotensive and spontaneously hypertensive rats. Acta Physiol Scand 107:9–12PubMedGoogle Scholar
  367. Norvell JE (1968) The aorticorenal ganglion and its role in renal innervation. J Comp Neurol 133:101–112CrossRefPubMedGoogle Scholar
  368. Norvell JE (1970) Renal nerves: are they essential? N Engl J Med 283:261Google Scholar
  369. Norvell JE, Weitsen HA, Sheppek GG (1970) The intrinsic innervation of human renal homotransplants. Transplantation 9:168–176PubMedGoogle Scholar
  370. Oates NS, Ball SG, Perkins CM, Lee MR (1979) Plasma and urine dopamine in man given sodium chloride in the diet. Clin Sci 56:261–264PubMedGoogle Scholar
  371. Oberg B, White S (1970) The role of vagal cardiac nerves and arterial baroreceptors in the circulatory adjustments to hemorrhage in the cat. Acta Physiol Scand 80:395–403PubMedGoogle Scholar
  372. Oliver JA, Pinto J, Sciacca RR, Cannon PJ (1980a) Basal norepinephrine overflow into the renal vein: effect of renal nerve stimulation. Am J Physiol 239:F371–F377PubMedGoogle Scholar
  373. Oliver JA, Pinto J, Sciacca RR, Cannon PJ (1980b) Increased renal secretion of norepinephrine and prostaglandin E2 during sodium depletion in the dog. J Clin Invest 66:748–756PubMedGoogle Scholar
  374. Olson RD, Nies AS, Gerber JG (1980a) Macula densa mediates renal alpha adrenoceptor stimulated renin release. Circ (Suppl III) 62:III–88Google Scholar
  375. Olson RD, Nies AS, Gerber JG (1980b) Canine renal beta-2 adrenoceptor activation increases renin secretion. Circ (Suppl III) 62:III–223Google Scholar
  376. Olson RD, Skoglund ML, Nies AS, Gerber JG (1980c) Prostaglandins mediate the macula densa stimulated renin release. In: Samuelsson B, Ramwell P, Paoletti R (eds) Advances in prostaglandin and thromboxane research, vol 7. Raven, New York, pp 1135–1137Google Scholar
  377. Olson U, Magnussen M, Eilersten E (1976) Prostaglandins, a link between renal hydro-and hemodynamics in dogs. Acta Physiol Scand 97:369–376PubMedGoogle Scholar
  378. Opgenroth TJ, Wappel M, Zehr JE (1980) Failure of indomethacin to suppress the renin release to salt depletion in dogs. Fed Proc 39:497Google Scholar
  379. Osborn JL, DiBona GF (1979) Effect of low level renal nerve stimulation during aortic constriction on renin secretion in filtering and non-filtering kidneys. Physiologist 22:97Google Scholar
  380. Osborn JL, DiBona GF, Thames MD (1981a) Beta-1 receptor mediation of renin secretion elicited by low frequency renal nerve stimulation. J Pharmacol Exp Ther 216:265–269PubMedGoogle Scholar
  381. Osborn JL, DiBona GF, Thames MD (1982) Role of alpha adrenoceptors mediating renin secretion. Am J Physiol 242:F620–F626PubMedGoogle Scholar
  382. Pang PKT, Uchiyama M, Sawyer WH (1982) Endocrine and neural control of amphibian renal functions. Fed Proc 41:2365–2370PubMedGoogle Scholar
  383. Pappenheim S (1840) Arch of Anat Physiol U Wissensch Med 7:534. In: Baker R, Tarabulcy E (1966) Effect of contralateral nephrectomy and renal nerves on renal function. Med Ann District Columbia 35:467–469Google Scholar
  384. Pastoriza E (1979) Effect of alpha-adrenergic stimulation and blockade in the proximal convoluted tubule of the rat. Kidney Int 16:831Google Scholar
  385. Pearson JE, Williams RL (1968) Analysis of direct renal actions of alpha and beta adrenergic stimulation upon sodium excretion compared to acetylcholine. Br J Pharamcol Chemother 33:223–241Google Scholar
  386. Pelletier CL, Shepherd JT (1975a) Relative infouence of carotid baroreceptors and muscle receptors in the control of renal and hindlimb circulations. Can J Physiol Pharmacol 53:1042–1049PubMedGoogle Scholar
  387. Pelletier CL, Shepherd JT (1975b) Effect of hypoxia on vascular response to the carotid baroreflex. Am J Physiol 228:331–336PubMedGoogle Scholar
  388. Pettinger W, Sanchez A, Gandler T, Sanchez J, Saavedra J (1981) Dietary sodium regulates abnormal renal alpha adrenergic receptors in the Dahl hypertensive rat. Clin Res 29:276AGoogle Scholar
  389. Pines IL (1960) The electrophysiological characteristic of the afferent connections of the kidney with the central nervous system. Sechenov Physiol J USSR 46:1622–1630Google Scholar
  390. Pines YL (1966) Fatigue in the receptors of the kidneys. Bull Exp Biol Med 62:16–21CrossRefGoogle Scholar
  391. Pines YL (1969) Electrophysiological investigation of the effects of chemical substances in the urine on renal receptors. Bull Exp Biol Med 67:3–7CrossRefGoogle Scholar
  392. Pogglitsch H (1973) Die neurale Regulation der renalen Hämodynamik, Wasser-und Natriumausscheidung. Wiener Med Wochenschr (Suppl 3) 123:2–16Google Scholar
  393. Polhemus RE, Hall DA (1980) Effect of catecholamines on the potential difference and chloride efflux in the mouse thick ascending limb of Henle's loop. Proc Am Soc Nephrol 13:146AGoogle Scholar
  394. Pomeranz BH, Birtch AG, Barger AC (1968) Neural control of intrarenal blood flow. Am J Physiol 215:1067–1081PubMedGoogle Scholar
  395. Powis DA, Donald DE (1979) Involvement of renal alpha and beta-adrenoceptors in release of renin by carotid baroreflex. Am J Physiol 236:H580–H585PubMedGoogle Scholar
  396. Prosnitz EH, DiBona GF (1978) Effect of decreased renal sympathetic nerve activity on renal tubular sodium reabsorption. Am J Physiol 235:F557–F563PubMedGoogle Scholar
  397. Prosnitz EH, DiBona GF (1980) Effects of propranolol on renal function. Clin Res 28:64AGoogle Scholar
  398. Prosnitz EH, Zambraski EJ, DiBona GF (1977) Mechanism of intrarenal blood flow distribution after carotid artery occlusion. Am J Physiol 232:F167–F172PubMedGoogle Scholar
  399. Purtock RV, Colditz JH von, Seagard JL, Igler FO, Zuperku EJ, Kampine JH (1977) Reflex effects of thoracic sympathetic afferent nerve stimulation on the kidney. Am J Physiol 233:H580–H586PubMedGoogle Scholar
  400. Quinby WC (1916) The junction of the kidney when deprived of its nerves. J Exp Med 25:535–548CrossRefGoogle Scholar
  401. Rand MJ, Majewski H, Medgett IC, McCulloch MW, Story DF (1980) Prejunctional receptors modulating autonomic neuroeffector transmission. Circ Res (Supp I) 46:I–70–I–76Google Scholar
  402. Recordati GM, Spielman WS (1977) Effects of fluid volume expansion on renal sympathetic efferent nerve activity in the rat. Fed Proc 36:487Google Scholar
  403. Recordati GM, Moss NG, Waselkov L (1978) Renal chemoreceptors in the rat. Circ Res 43:534–543PubMedGoogle Scholar
  404. Recordati G, Genovesi S, Cerati D, Dicintio R (1980a) Reno-renal and reno-adrenal reflexes in the rat. Clin Sci 59:323S–325SPubMedGoogle Scholar
  405. Recordati GM, Moss NG, Genovesi S, Rogenes PR (1980b) Renal receptors in the rat sensitive to chemical alterations of their environment. Circ Res 46:395–405PubMedGoogle Scholar
  406. Reid IA, Schrier RW, Early LE (1972) An effect of extrarenal beta-adrenergic stimulation on the release of renin. Clin Invest 51:1861–1869Google Scholar
  407. Reid IA, Morris BJ, Ganong WF (1978) The renin-angiotensin system. Annu Rev Physiol 40:377–410CrossRefPubMedGoogle Scholar
  408. Reimann KA, Weaver LC (1980) Contrasting reflexes evoked by chemical activation of cardiac afferent nerves. Am J Physiol 239:H316–H325PubMedGoogle Scholar
  409. Reinhardt HW, Behrenbeck DW (1967) Untersuchungen an wachen Hunden über die Einstellung der Natriumbilanz. I. Die Bedeutung des Extracellularraumes für die Einstellung der Natrium-Tagesbilanz. Pfluegers Arch 295:266–279CrossRefGoogle Scholar
  410. Reinhardt H-W, Kaczmarczyk G, Mohnhaupt R, Simgen B (1980a) The possible mechanims of atrial natriuresis — experiments on chronically instrumented dogs. In: Lichardus B, Schrier RW, Ponec J (eds) Hormonal regulation of sodium excretion. Elsevier/North Holland, Amsterdam, pp 43–51Google Scholar
  411. Reinhardt H-W, Kaczmarczyk G, Mohnhaupt R, Simgen B, Wegener S (1980b) Is the control of sodium excretion partly due to signals from receptors located in the left atrium of the heart? Proc Int Union Physiol Sci 14:222Google Scholar
  412. Reynolds GP, Ceasar PM, Ruthven CRJ, Sandler M (1978) The effect of urinary pH and flow rate on monoamine output. Clin Chim Acta 84:225–231CrossRefPubMedGoogle Scholar
  413. Richards AN, Plant OH (1922) Urine formation in the perfused kidney. The influence of adrenalin on the volume of the perfused kidney. Am J Physiol 59:184–190Google Scholar
  414. Ricksten S-E (1980) Function of cardiac mechanoreceptors in primary hypertension: experimental studies in spontaneously hypertensive rats. Doctoral Thesis, University of Goteborg, Goteborg, SwedenGoogle Scholar
  415. Ricksten S-E, Thoren P (1980) Reflex inhibition of sympathetic activity during volume load in awake normotensive and spontaneously hypertensive rats. Acta Physiol Scand 110:77–82PubMedGoogle Scholar
  416. Ricksten S-E, Noresson E, Thoren P (1979) Inhibition of renal sympathetic nerve traffic from cardiac receptors in normotensive and spontaneously hypertensive rats. Acta Physiol Scand 106:17–22PubMedGoogle Scholar
  417. Ricksten S-E, Yao T, DiBona GF, Thoren P (1981) Renal nerve activity and exaggerated natriuresis in conscious spontaneous hypertensive rats. Acta Physiol Scand 112:161–167PubMedGoogle Scholar
  418. Robie NW (1979) Presynaptic inhibition of canine renal adrenergic nerves by acetylcholine in vivo. Am J Physiol 237:H326–H331PubMedGoogle Scholar
  419. Robie NW (1980) Evaluation of presynaptic alpha-receptor function in the canine renal vascular bed. Am J Physiol 239:H422–H426PubMedGoogle Scholar
  420. Robie NW (1981) Modulation by histamine agonists and antagonists of renal adrenergic neuronal vasoconstriction in vivo. Fed Proc 40:242Google Scholar
  421. Rocchini AP, Barger AC (1979) Renin release with carotid occlusion in the conscious dog: role of renal arterial pressure. Am J Physiol 236:H108–H111PubMedGoogle Scholar
  422. Rocchini AP, Cant JR, Barger AC (1977) Carotid sinus reflex in dogs with low to high sodium intake. Am J Physiol 233:H196–H202PubMedGoogle Scholar
  423. Rogenes PR, Gottschalk WC (1980) Denervation diuresis and natriuresis in conscious rast. Proc Am Soc Nephrol 13:148AGoogle Scholar
  424. Romero JC, Dunlap CL, Strong CG (1976) The effect of indomethacin and other anti-inflammatory drugs on the renin-angiotensin system J Clin Invest 58:282–288PubMedGoogle Scholar
  425. Rouot BR, Snyder SH (1979) [3H]-paraaminoclonidine: a novel ligand which binds with high affinity to alpha adrenergic receptors. Life Sci 25:769–774CrossRefPubMedGoogle Scholar
  426. Rumpf KW, Frenzel S, Lowtiz HD, Scheler F (1975) The effect of indomethacin on plasma renin activity in man under normal conditions and after stimulation of the renin angiotensin system. Prostaglandins 10:641–648PubMedGoogle Scholar
  427. Sadowski J, Kurkus J, Gellert R (1979a) Denervated and intact kidney responses to saline load in awake and anesthetized dogs. Am J Physiol 237:F262–F267PubMedGoogle Scholar
  428. Sadowski J, Kurkus J, Gellert R (1979b) Reinvestigation of denervation diuresis and natriuresis in conscious dogs. Arch Int Physiol Biochem 87:663–672Google Scholar
  429. Sadowski J, Kurkus J, Gellert R (1980) Have renal nerves a major role in control of sodium excretion? In: Lichardus B, Schrier RW, Ponec J (eds) Hormonal regulation of sodium excretion. Elsevier/North Holland, Amsterdam, pp 33–42Google Scholar
  430. Sawchenko PE, Friedman MI (1979) Sensory functions of the liver — a review. Am J Physiol 236:R5–R20PubMedGoogle Scholar
  431. Schad H, Seller H (1975) A method for recording autonomic nerve activity in unanesthetized, freely moving cats. Brain Res 100:425–430CrossRefPubMedGoogle Scholar
  432. Schad H, Seller H (1976) Reduction of renal nerve activity by volume expansion in conscious cats. Pfluegers Arch 363:155–159CrossRefGoogle Scholar
  433. Schiffrin EL, Garcia R, Gutkowska J, Boucher R, Genest J (1980) Role of prostaglandins, beta-adrenoceptors and the central nervous control of renin release in conscous sodium-depleted rats. Proc Soc Exp Biol Med 165:151–154PubMedGoogle Scholar
  434. Schneider E, McLane-Vega L, Hanson R, Childers J, Gleason S (1978) Effect of chronic bilateral renal denervation on daily sodium excretion in the conscious dog. Fed Proc 37:645Google Scholar
  435. Schram LP, Carlson DE (1975) Inhibition of renal vasoconstriction by elevated ureteral pressure. Am J Physiol 228:1126–1133PubMedGoogle Scholar
  436. Schrier RW (1974) Effects of adrenergic nervous system and catecholamines on systemic and renal hemodynamics, sodium and water excretion, and renin secretion. Kidney Int 6:291–306PubMedGoogle Scholar
  437. Schrier RW, Humphreys MH, Ufferman RC (1971) Role of cardiac output and the autonomic nervous system in the antinatriuretic response to acute constriction of the thoracic superior vena cava. Circ Res 29:490–498PubMedGoogle Scholar
  438. Schultz HD, Fater DC, Sundet WD, Goetz KL (1980) Renal responses to partial obstruction at various points in the intrathoracic circulation of conscious dogs. Physiologist 23:129Google Scholar
  439. Scott CK, Vanderwende C (1980) The identification of [3H] apomorphine binding sites in dog renal cortex membrane preparations. Fed Proc 38:1007Google Scholar
  440. Seymour AA, Zehr JE (1979) Influence of renal prostaglandin synthesis on renal control mechanisms in the dog. Circ Res 45:13–25PubMedGoogle Scholar
  441. Shvalev VN (1966) Problems in the morphology and nature of renal innervation. Fed Proc (Transl Supp) 25:T595–T600Google Scholar
  442. Simgen B, Kaczmarczyk G, Mohnhaupt R, Schulze G, Reinhardt HW (1979) The contribution of the renal nerves to adjustments of the sodium balance. Pfluegers Arch 382:R17Google Scholar
  443. Sivananthan N, Kappagoda CT, Linden RJ (1981) The nature of atrial receptors responsible for the increase in urine flow caused by distension of the left atrium in the dog. Q J Exp Physiol 66:51–59PubMedGoogle Scholar
  444. Slick GL, DiBona GF, Kaloyanides GJ (1974) Renal sympathetic nerve activity in sodium retention of acute caval constriction. Am J Physiol 226:925–932PubMedGoogle Scholar
  445. Slick GL, Aguilera AJ, Zambraski EJ, DiBona GF, Kaloyanides GJ (1975) Renal neuroadrenergic transmission. Am J Physiol 229:60–65PubMedGoogle Scholar
  446. Smith HW (1937) The physiology of the kidney. Oxford Univ, New York, pp 245–246Google Scholar
  447. Smith HW (1951) The kidney: structure and function in health and disease. Oxford Univ, New York, pp 424–596Google Scholar
  448. Smith HW, Chasis H, Goldring W, Ranges HA (1940) Glomerular dynamics in the normal human kidney. J Clin Invest 19:751Google Scholar
  449. Spencer HW, Yarger WE (1977) The effect of time and anesthesia on denervation natriuresis in the rat. Clin Res 25:43AGoogle Scholar
  450. Spyer KM (1981) The neural organization and control of the baroreceptor reflex. Rev Physiol Biochem Pharmacol 88:23–124Google Scholar
  451. Starke K (1977) Regulation of noradrenaline release by presynaptic receptor systems. Rev Physiol Biochem Pharmacol 77:1–124PubMedGoogle Scholar
  452. Starke K (1981a) Alpha adrenoceptor subclassification. Rev Physiol Biochem Pharmacol 88:199–236PubMedGoogle Scholar
  453. Starke K (1981b) Presynaptic receptors. Annu Rev Pharmacol Toxicol 21:7–30CrossRefPubMedGoogle Scholar
  454. Stein JH, Osgood RW, Ferris TF (1972) The effect of beta adrenergic stimulation on proximal tubular sodium reabsorption. Proc Soc Exp Biol Med 141:901–905PubMedGoogle Scholar
  455. Steiner RW, Blantz RC (1979) Acute reversal by saralasin of multiple intrarenal effects of angiotensin II. Am J Physiol 237:F386–F391PubMedGoogle Scholar
  456. Steiner RW, Tucker BJ, Blantz RC (1979) Glomerular hemodynamics in rats with chronic sodium depletion: Effect of saralasin. J Clin Invest 64:503–512PubMedGoogle Scholar
  457. Stella A, Dampney RAL, Golin R, Zanchetti A (1978a) Afferent vagal control of renin release in the anesthetized cat. Circ Res (Supp I) 43:I–107–I–111Google Scholar
  458. Stella A, Dampney RAL, Golin R, Zanchetti A (1978b) Differences in reflex control of arterial pressure and renin release during head-up tilting in the cat. Clin Sci Mol Med 55:1795–1815Google Scholar
  459. Stephenson RK, Sole MJ, Baines AD (1982) Neural and extraneural catecholamine production by rat kidneys. Am J Physiol 242:F261–F266PubMedGoogle Scholar
  460. Stinson JM, Barnes AB, Zakheim RM, Chimoskey JE, Spinelli FR, Barger AC (1969) Reflex cholinergic vasodilatation during renal artery constriction in the unanesthetized dog. Am J Physiol 217:239–246PubMedGoogle Scholar
  461. Stinson JM, Mootry PJ, Jackson CG, Gates HO, Scott MT (1976) Renal vasodilatation in response to coronary artery ligation in the dog. Clin Exp Pharmacol Physiol 3:191–194PubMedGoogle Scholar
  462. Stitzer SO, Malvin RL (1975) Right atrium and renal sodium excretion. Am J Physiol 228:184–190PubMedGoogle Scholar
  463. Standhoy JW, Schneider EG, Willis LR, Knox FG (1974) Intrarenal effects of phenoxybenzamine on sodium reabsorption. J Lab Clin Med 83:263–270PubMedGoogle Scholar
  464. Struyker-Boudier HAJ, Van Essen H, Sinits JFM, Evenwel R (1979) Exaggerated diuresis and natriuresis in conscious spontaneously hypertensive rats. Therapiewoche 29:7740–7743Google Scholar
  465. Stryuker-Boudier HAJ, Smits JFM, Evenwel R (1980) Exaggerated diuresis and natriuresis in conscious SHR. Int Soc Hypertension 7:128Google Scholar
  466. Szalay L, Bencsath P, Takacs L (1977a) Effect of splanchnicotomy on the renal excretion of inorganic phosphate in the anesthetized dog. Pfluegers Arch 367:283–286CrossRefGoogle Scholar
  467. Szalay L, Bencsath P, Takacs L (1977b) Effect of splanchnicotomy on the renal excretion of para-aminohippuric acid in the anesthetized dog. Pfluegers Arch 367:287–290CrossRefGoogle Scholar
  468. Szalay L, Bencsath P, Takacs L (1977c) Effect of splanchnicotomy on the renal excretion of d-glucose in the anesthetized dog. Pfluegers Arch 369:79–84CrossRefGoogle Scholar
  469. Szalay L, Bencsath P, Takacs L (1977d) Impaired proximal tubular transport functions in anesthetized splanchnicotomized dogs. Experientia 33:42–43CrossRefPubMedGoogle Scholar
  470. Szalay L, Lang E, Bencsath P, Mohai L, Fischer A, Takacs L (1977e) Effect of splanchnicotomy on the renal excretion of uric acid in anesthetized dogs. Pfluegers Arch 368:185–188CrossRefGoogle Scholar
  471. Szalay L, Colindres RE, Jackson R, Adkinson JT, Lassiter WE, Gottschalk CW (1980) Phosphate transport in chronically denervated rat kidney. Proc Am Soc Nephrol 13:10AGoogle Scholar
  472. Szenasi G, Bencsath P, Lehoczky E, Takacs L (1981) Tubular transport and urinary excretion of phosphate after renal denervation in the anesthetized rat. Am J Physiol 240:F481–F486PubMedGoogle Scholar
  473. Taher MS, McLain LG, McDonald KM, Schrier RW (1976) Effect of beta-adrenergic blockade on renin response to renal nerve stimulation. J Clin Invest 57:459–465PubMedGoogle Scholar
  474. Takacs L, Bencsath P, Szalay L (1978) Decreased proximal tubular transport capacity after renal sympathectomy. Proc Int Cong Nephrol 8:553–558Google Scholar
  475. Takacs L, Bencsath P, Szenasi G (1979) Effect of acute and chronic unilateral renal denervation on excretion and Tm of inorganic phosphate in normal and TPTX rats. Upsalla J Med Sci (Suppl) 26:71Google Scholar
  476. Takeshita AL (1978) Neurogenic contribution to hindquarters vasoconstriction during high sodium intake in Dahl strain of genetically hypertensive rat. Circ Res 43:I86–I90Google Scholar
  477. Takeshita A, Mark AL, Brody MJ (1979) Prevention of salt-induced hypertension in the Dahl strain by 6-hydroxydopamine. Am J Physiol 236:H48–H52PubMedGoogle Scholar
  478. Takeuchi J, Uchida E, Nakayama S, Takeda T, Yagi S, Inoue G, Ueda H (1961) Experimental studies on the nervous control of the renal circulation. Jpn Heart J 2:65–75PubMedGoogle Scholar
  479. Takeuchi J, Iino S, Hanada S, Sakai S, Oya N, Kitamura K (1964) Experimental studies on the nervous control of the renal circulation-effect of the electrical stimulation of the spinal cord on the renal circulation. Jpn Heart J 5:69–80Google Scholar
  480. Takeuchi J, Iino S, Hanada S, Sakai S, Oya N, Kitamura K (1965) Experimental studies on the nervous control of the renal circulation. Jpn Heart J 6:543–557PubMedGoogle Scholar
  481. Takeuchi J, Ohya N, Sakai S, Nakamura H, Nohara T, Hirasawa K, Shinoda A (1968) Nervous control of the renal tubular function. Jpn Heart J 9:564–572PubMedGoogle Scholar
  482. Takeuchi J, Aoki S, Nomura G, Mizumura Y, Shimizu H, Kubo T (1971) Nervous control of renal circulation — on the existence of sympathetic cholinergic fibers. J Appl Physiol 31:686–692PubMedGoogle Scholar
  483. Thames MD (1978) Contribution of cardiopulmonary baroreceptors to the control of the kidney. Fed Proc 37:1209–1213PubMedGoogle Scholar
  484. Thames MD (1979) Acetylstrophanthidin-induced reflex inhibition of canine renal sympathetic nerve activity mediated by cardiac receptors with vagal afferents. Circ Res 44:8–15PubMedGoogle Scholar
  485. Thames MD, Abboud FM (1979a) Reflex inhibition of renal sympathetic nerve activity during myocardial ischemia mediated by left ventricular receptors with vagal afferents in dogs. J Clin Invest 63:395–402PubMedGoogle Scholar
  486. Thames MD, Abboud FM (1979b) Interaction of somatic and cardiopulmonary receptors in control of renal circulation. Am J Physiol 237:H560–H565PubMedGoogle Scholar
  487. Thames MD, DiBona GF (1979) Renal nerves modulate the secretion of renin mediated by nonneural mechanisms. Circ Res 44:645–652PubMedGoogle Scholar
  488. Thames MD, Schmid PG (1979) Cardiopulmonary receptors with vagal afferents tonically inhibit ADH release in the dog. Am J Physiol 237:H299–H304PubMedGoogle Scholar
  489. Thames MD, Klopfenstein HS, Abboud FM, Mark AL, Walker JL (1978) Preferential distribution of inhibitory cardiac receptors with vagal afferents to the inferoposterior wall of the left ventricle activated during coronary occlusion in the dog. Circ Res 43:512–519PubMedGoogle Scholar
  490. Thames MD, Osborn JL, DiBona GF (1980a) Renin release mediated solely by renal nerves; inhibition by blockade of prostaglandin synthesis. Circulation (Suppl III) 62:III–122Google Scholar
  491. Thames MD, Waickman LA, Abboud FM (1980b) Sensitization of cardiac receptors (vagal afferents) by intracoronary acetylstrophanthidin. Am J Physiol 239:H628–H635PubMedGoogle Scholar
  492. Thoren P (1979) Role of cardiac vagal C-fibers incardiovascular control. Rev Physiol Biochem Pharmacol 86:1–94PubMedGoogle Scholar
  493. Thoren P, Ricksten S-E (1979) Recordings of renal and splanchnic sympathetic nervous activity in normotensive and spontaneously hypertensive rats. Clin Sci 57:197s–199sPubMedGoogle Scholar
  494. Thoren P, Noresson E, Ricksten S-E (1979a) Resetting of cardiac C-fiber endings in the spontaneously hypertensive rat. Acta Physiol Scand 107:13–18PubMedGoogle Scholar
  495. Thoren P, Noresson E, Ricksten S-E (1979b) Cardiac reflexes in normotensive and spontaneously hypertensive rats. Am J Cardiol 44:884–888CrossRefPubMedGoogle Scholar
  496. Touw KB, Haywood JR, Shaffer R,A, Brody MJ (1980) Contribution of the sympathetic nervous system to vascular resistance in conscious young and adult spontaneously hypertensive rats. Hypertension 2:408–418PubMedGoogle Scholar
  497. Tucker BJ, Blantz RC (1978) Inhibition of tubuloglomerular feedback induced reduction in nephron filtration rate with saralasin. Kidney Int 14:784AGoogle Scholar
  498. Tucker BJ, STeiner RW, Gushwa L, Blantz RC (1978) Studies on the tubuloglomerular feedback system in the rat. J Clin Invest 62:993–1004PubMedGoogle Scholar
  499. Uchida Y (1979) Mechanisms of excitation of cardiac sympathetic afferents. In: Hainsworth R, Kidd C, Linden RJ (eds) Cardiac receptors. Cambridge Univ, Cambridge, pp 301–318Google Scholar
  500. Uchida Y, Kamisaka K, Ueda H (1971) Two types of renal mechanoreceptors. Jpn Heart J 12:233–241PubMedGoogle Scholar
  501. Ueda H, Uchida Y (1968) Afferent impulses in the renal nerves. Jpn Heart J 9:517–519PubMedGoogle Scholar
  502. Ueda H, Uchida Y, Kaisaka K (1967) Mechanism of the reflex depressor effect by kidney in dog. Jpn Heart J 8:597–606PubMedGoogle Scholar
  503. Ueda H, Uchida Y, Kamisaka K (1971) Responses of renal mechanoreceptors to vasopressor substances. Jpn Heart J 12:347–353PubMedGoogle Scholar
  504. Ueda J, Kishimoto T, Shimizu H, Yamamoto K (1968) Renal vascular response to ganglionic stimulants in the dog. Jpn Circ J 32:705–714PubMedGoogle Scholar
  505. U'Prichard DC, Snyder SH (1979) Distinct alpha noradrenergic receptors differentiated by binding and physiological relationships. Life Sci 24:79–88CrossRefPubMedGoogle Scholar
  506. Vandewalle A, Farman N, Bonvalet J-P (1978) Renal handling of sodium in Kyoto-Okamoto rats. Am J Physiol 235:F394–F402PubMedGoogle Scholar
  507. Vatner SF (1974) Effects of hemorrhage on regional blood flow distribution in dogs and primates. J Clin Invest 54:225–235PubMedGoogle Scholar
  508. Vaughan ED, Shemasky JH, Gillenwater JY (1971) Mechanism of acute hemodynamic response to ureteral occlusion. Invest Urology 9:109–118Google Scholar
  509. Waickman LA, Abboud FM (1980) Circumflex coronary occlusion inhibits the compensatory increase in sympathetic activity during arterial hypotension. Clin Res 28:717AGoogle Scholar
  510. Walker JL, Thames MD, Abboud FM, Mark AL, Klopfenstein HS (1978) Preferential distribution of inhibitory cardiac receptors in left ventricle of the dog. Am J Physiol 235:H188–H192PubMedGoogle Scholar
  511. Wasserman K, Huss R, Kullmann R (1980) Dopamine-induced diuresis in the cat without changes in renal hemodynamics. Naunyn-Schmiedebergs Arch Pharmacol 312:77–83CrossRefPubMedGoogle Scholar
  512. Watanabe AM, Judy WV, Cardon PV (1974) Effect of L-dopa on blood pressure and sympathetic nerve activity after decarboxylase inhibition in cats. J Pharmacol Exp Ther 188:107–113PubMedGoogle Scholar
  513. Waugh WM (1970) Evidence that renal sympathetic tone modulates the degree of natriuresis upon volume expansion. Fed Proc 29:459Google Scholar
  514. Weaver LC (1977) Cardiopulmonary sympathetic afferent influences on renal nerve activity. Am J Physiol 233:H592–H599PubMedGoogle Scholar
  515. Weaver LC, Reimann KA (1979) Comparison of sympathetic and vagal cardiac afferent influences on renal nerves. Fed Proc 38:1201Google Scholar
  516. Weaver LC, Macklem LJ, Reimann KA, Mickler RL, Oehl RS (1979) Organization of thoracic sympathetic afferent influences on renal nerve activity. Am J Phyiol 237:H44–H50Google Scholar
  517. Weaver LC, Danos LM, Oehl RS, Meckler RL (1981) Contrasting reflex influences of cardiac afferent nerves during coronary occlusion. Am J Physiol 240:H620–H629PubMedGoogle Scholar
  518. Webb RL, Knuepfer MM, Brody MJ (1981) Central projections of afferent renal nerves. Fed Proc 40:545Google Scholar
  519. Weidinger H, Kirchner F (1967) Sympathische Aktionspotentiale bei nicht narkotisierten frei beweglichen Katzen. Pfluegers Arch 294:R23Google Scholar
  520. Weitsen HA, Norvell JE (1969) Cholinergic innervation of the autotransplanted canine kidney. Circ Res 251:535–541Google Scholar
  521. Wennergren G, Henriksson B-A, Weiss L-G, Oberg B (1976) Effects of stimulation of nonmodulated cardiac afferents on renal water and sodium excretion. Acta Physiol Scand 97:261–263PubMedGoogle Scholar
  522. Westfall TC (1977) Local regulation of adrenergic neurotransmission. Physiol Rev 57:659–728PubMedGoogle Scholar
  523. Westfall TC (1980) Neuroeffector mechanisms. Annu Rev Physiol 42:383–397CrossRefPubMedGoogle Scholar
  524. Wehlan TJ, McCoord AB, Schilling JA (1952) Experimental ascites: the influence of transplantation of the kidneys to the neck. Surg Forum 4:510–516Google Scholar
  525. Whitwam JG, Kidd C, Fussey IV (1979) Responses in sympathetic nerves of the dog evoked by stimulation of somatic nerves. Brain Res 165:219–233CrossRefPubMedGoogle Scholar
  526. Wilcox CS, Aminoff MJ, Slater JDH (1977) Sodium homeostasis in patients with autonomic failure. Clin Sci 53:321–328Google Scholar
  527. Williams RL, Maines JE, Pearson JE (1971) Direct and systemic effects of guanethidine on renal function. J Pharmacol Exp Ther 177:69–77PubMedGoogle Scholar
  528. Williamson HE, Marchand GR, Bourland WA, Farley DB, Van Orden DE (1976) Ethacrynic acid induced release of prostaglandin E to increase rena blood flow. Prostaglandins 11:519–522CrossRefPubMedGoogle Scholar
  529. Willis LR, Lappe RW, Hendry DP, Evan AP, Terzian AR (1980) Urinary excretion of radiolabelled norepinephrine after release from renal sympathetic nerves. Life Sci 27:2541–2546CrossRefPubMedGoogle Scholar
  530. Wilson DR (1980) Pathophysiology of obstructive nephropathy. Kidney Int 16:281–292Google Scholar
  531. Wilson DR, Honrath U (1981) Effect of renal denervation, furosemide, and acute saline loading on postobstructive diuresis in the rat. Can J Physiol Pharmacol 59:59–64PubMedGoogle Scholar
  532. Wilson DR, Honrath U, Cusimano M (1979a) Role of renal nerves in altered sodium reabsorption during transient increases in ureteral pressure. Clin Res 27:433AGoogle Scholar
  533. Wilson DR, Honath U, Sole M (1979b) Effect of acute and chronic denervation on renal function after release of unilateral ureteral obstruction in the rat. Can J Physiol Pharmacol 57:731–737PubMedGoogle Scholar
  534. Winaver J, Chaimovitz C, Better OS (1978) Natriuretic effect of propranolol on dogs with chronic bile duct ligation. Clin Sci 54:603–607Google Scholar
  535. Winternitz SR, Katholi RE, Oparil S (1980) Role of the renal sympathetic nerves in the development and maintenance of hypertension in the spontaneously hypertensive rat. J Clin Invest 66:971–978PubMedGoogle Scholar
  536. Winternitz SR, Oparil S, Katholi RE (1981) Decrease in hypothalamic catecholamines following renal denervation in one-kidney one-clip Goldblatt hypertensive rats. Clin Res 29:362AGoogle Scholar
  537. Woodcock EA, Funder JW, Johnston CI (1978) Decreased cardiac beta adrenoceptor in hypertensive rats. Clin Exp Pharmacol Physiol 5:545–550PubMedGoogle Scholar
  538. Young WS, Kuhar MJ (1980) Alpha-2 adrenergic receptors are associated with renal proximal tubules. Eur J Pharmacol 67:493–495CrossRefPubMedGoogle Scholar
  539. Yun J, Kelly GM, Bartter FC, Smith H (1977) Role of prostaglandins in the control of renin secretion. Circ Res 40:459–464PubMedGoogle Scholar
  540. Zambraski EJ, DiBona GF (1976) Role of angiotensin II in the antinatriuresis of low level renal nerve stimulation. Am J Physiol 231:1105–1110PubMedGoogle Scholar
  541. Zambraski EJ, DiBona GF (1979) Interaction of adrenergic stimuli, prostaglandins and angiotensin II in the dog kidney. Proc Soc Exp Biol Med 162:105–111PubMedGoogle Scholar
  542. Zambraski EJ, Dunn MJ (1980) Prostaglandins and renal function in chronic bile duct ligated dogs. Proc Am Soc Nephrol 13:111AGoogle Scholar
  543. Zambraski EJ, DiBona GF, Kaloyanides GJ (1976a) Specificity of neural effect on renal tubular sodium reabsorption. Proc Soc Exp Biol Med 151:543–546PubMedGoogle Scholar
  544. Zambraski EJ, DiBona GF, Kaloyanides GJ (1976b) Effect of sympathetic blocking agents on the antinatriuresis of reflex renal nerve stimulation. J Pharmacol Exp Ther 198:464–472PubMedGoogle Scholar
  545. Zambraski EJ, Prosnitz EH, DiBona GF (1978) Lack of evidence for renal vasodilatation in anesthetized dogs. Proc Soc Exp Biol Med 158:462–465PubMedGoogle Scholar
  546. Zimmerman BG (1978) Actions of angiotensin on adrenergic nerve endings. Fed Proc 37:199–202PubMedGoogle Scholar
  547. Zimmerman H, Ganong WF (1980) Pharmacological evidence that stimulation of central seratonergic pathways increases renin secretion. Neuroendocrinology 30:101–107PubMedGoogle Scholar
  548. Zimmerman H-D (1972) Elektronenmikroskopische Befunde zur Innervation des Nephron nach Untersuchungen an der fetalen Nachniere des Menschen. Z Zellforsch 129:65–75CrossRefPubMedGoogle Scholar
  549. Zimmermann H-D (1975) Myelinated nerve fibers in the rat kidney. Cell Tissue Res 160:485–493CrossRefPubMedGoogle Scholar
  550. Zucker IH, Gilmore JP (1975) Responsiveness of type B atrial receptors in the monkey. Brain Res 95:159–165CrossRefPubMedGoogle Scholar
  551. Zucker IH, Lang M, Hackley JF (1981) Modulation of renal sympathetic nerve activity in the anesthetized dog. Fed Proc 40:522Google Scholar

Copyright information

© Springer-Verlag 1982

Authors and Affiliations

  • Gerald F. Dibona
    • 1
    • 2
  1. 1.Department of Internal MedicineUniversity of Iowa College of MedicineUSA
  2. 2.Medical ServiceVeterans Administration Medical CenterIowa CityUSA

Personalised recommendations