Abstract
The time course of changes in rat brain levels of acetylcholine (ACh) and choline (Ch) was investigated following a single SC injection of soman (0.9 LD50, 120 μg/kg) to understand the relationship between central neurotransmitter alteration and soman toxicity. Of the animals exposed to the dose of soman, 46% died within 24 h, with maximum mortality occurring during the first 40 min following soman administration. In a second group, surviving rats were killed at various times after treatment by a beam of focused microwave radiation to the head, and ACh and Ch levels were determined by gas chromatography-mass spectrometry. Soman produced a maximal ACh elevation in the brain stem at 20 min (34.4%), in cerebellum at 40 min (51.9%), in cortex and striatum at 2 h (320.3% and 35.2%, respectively), and in hippocampus and midbrain at 3 h (94.5% and 56.8%, respectively). ACh levels remained above normal approximately 30 min in the brain stem; 2 h in the midbrain, cerebellum, and striatum; 8 h in the cortex; and 16 h in the hippocampus. Ch levels were elevated in all areas except the striatum. Ch maxima occurred at 10–40 min and returned to control levels approximately 3 h after injection. Results suggest that perturbation of ACh levels due to soman was not uniform throughout the brain and that soman toxicity may reflect ACh changes in multiple areas, rather than changes in any given area. These data further suggest a possible relationship between elevated Ch levels and soman toxicity.
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References
Ansell GB, Spanner S (1968) The metabolism of [Me-14C] choline in the brain of the rat in vivo. Biochem J 110:201–206
Bellet EM, Casida JE (1973) Bicyclic phosphorus esters: High toxicity without cholinesterase inhibition. Science 182:1135–1136
Biskind MS, Mobbs, RE (1972) Psychiatric manifestations from insecticide exposure. JAMA 220:1248
Bowery NG, Collins JF, Hill RG, Pearson S (1976) GABA antagonism as a possible basis for the convulsant action of a series of bicyclic phosphorus esters. Proc Br Pharmacol Soc 4:435–436
Bradley PB, Dhawan BN, Wolstencroft JH (1966) Pharmacological properties of cholinoceptive neurons in the medulla and pons of the cat. J Physiol (Lond) 183:658–674
Browning ET, (1971) Free choline formation by cerebral cortical slices from rat brain. Biochem Biophys Res Commun 45:1586–1590
Clement JG, Lee MJ (1980) Soman-induced convulsions: Significance of changes in levels of blood electrolytes, gases, glucose, and insulin. Toxicol Appl Pharmacol 55:203–204
Cooper MF, Webster GR (1970) The differentiation of phospholipase A1 and A2 in rat and human nervous tissues. J Neurochem 17:1543–1554
DeCandole CA, Douglas WW, Evans CL, Holmes R, Spencer KEV, Torrance RW, Wilson KM (1953) The failure of respiration in death by anticholinesterase poisoning. Br J Pharmacol Chemother 8:466–475
Dross K, Kewitz H (1972) Concentration and origin of choline in rat brain. Naunyn-Schmiedeberg's Arch Pharmacol 274:91–106
Duffy FH, Burchfiel, JL, Bartel PH, Gaon M, Sim VM (1979) Long-term effects of an organophosphate upon the human electroencephalogram. Toxicol Appl Pharmacol 47:161–176
Durham WF, Wolfe HR, Quinby GE (1965) Organophosphorus insecticides and mental alertness. Arch Environ Helath 10:55–66
Fonnum F, Guttormsen DM (1969) Changes in acetylcholine content of rat brain by toxic doses of diisopropyl phosphorofluoridate. Experientia 25:505–506
Friedman AH, Walker CA (1972) The acute toxicity of drugs acting at cholinoceptive sites and 24-h rhythms in brain acetylcholine. Arch Toxicol 29:39–49
Gershon S, Shaw FH (1961) Psychiatric sequele of chronic exposure to organophosphorus insecticides. Lancet I:1371–1374
Giarman NJ, Pepeu G (1962) Drug-induced changes in brain acetylcholine. Br J Pharmacol 19:226–234
Gibson GE, Blass JP (1976) Impaired synthesis of acetylcholine in brain accompanying mild hypoxia and hypoglycemia. J Neurochem 27:37–42
Gibson GE, Duffy TE (1981) Imparied synthesis of acetylcholine by mild hypoxic hypoxia or nitrous oxide. J Neurochem 36:28–33
Gibson GE, Peterson C, Sansone J (1981) Decreases in amino acid and acetylcholine metabolism during hypoxia. J Neurochem 37:192–201
Grob D (1963) Anticholinesterase intoxication in man and its treatment. In: Koelle GB (ed) Handbuch der Experimentellen Pharmakologie, vol 15. Springer, Berlin Heibelberg New York, pp 989–1027
Hanin I, Massarelli R, Costa E (1970) Acetylcholine concentrations in rat brain: Diurnal oscillation. Science 170:341–342
Harris LW, Heyl WC, Stitcher DL, Moore RD (1978) Effects of atropine and/or physostigmine on cerebral acetylcholine in rats poisoned with soman. Life Sci 22:907–910
Harris LW, Stitcher DL, Heyl WC (1980) The effects of pretreatment with carbamates, atropine and mecamylamine on survival and on soman-induced alterations in rat and rabbit brain acetylcholine. Life Sci 26:1885–1891
Holmes JH, Gaon MD (1956) Observations on acute and multiple exposure to anticholinesterase agents. Trans Am Clin Climatol Assoc 68:86–101
Hrdina PD (1974) Metabolism of brain acetylcholine and its modification by drugs. Drug Metab Rev 3:89–129
Jenden DJ, Hanin I (1974) Gas chromatographic microestimate of choline and acetylcholine after N-demethylation by sodium benzenethiolate. In: Hanin I (ed) Choline and acetylcholine: Handbook of chemical assay methods. Raven, New York, pp 135–150
Jenden DJ, Roch M, Booth RA (1973) Simultaneous measurement of endogenous and deuterium-labeled tracer variant of choline and acetylcholine in sub-picomole quantities by gas chromatographymass spectrometry. Anal Biochem 55:438–448
Kalia M (1977) Neuroanatomical organization of the respiratory centers. Fed Proc 36:2405–2411
Koelle GB (1963) Handbuch der Experimentellen Pharmakologie, vol 15. Springer, Berlin Heidelberg New York
Levin HS, Rodnitzky RL, Mick DL (1976) Anxiety associated with exposure to organophosphate compounds. Arch Gen Psychiatry 33:225–228
Lipp JA (1976) Effect of atropine upon the cardiovascular system during soman-induced respiratory depression. Arch Int Pharmacodyn Ther 220:19–27
Mayer O, Michalek H (1971) Effects of DFP and obidoxime on brain acetylcholine levels and on brain and peripheral cholinesterases. Biochem Pharmacol 20:3029–3037
McDonough J, Hackley B, Cross R, Samson F, Nelson S (1981) Brain regional glucose use during soman-induced seizures. Fed Proc 40:271
Meeter E, Wolthuis OL (1968) The spontaneous recovery of respiration and neuromuscular transmission in the rat after anticholinesterase poisoning. Eur J Pharmacol 2:377–386
Merrill EG (1970) The lateral respiratory neurons of the medulla: Their associations with nucleus ambiguus, nucleus retroambigualis, the spinal accessory nucleus and the spinal cord. Brain Res 24:11–28
Metz B (1958) Brain acetylcholinesterase and a respiratory reflex. Am J Physiol 192:101–105
Michaelis M, Finesinger JE, Verster FB, Erickson RW (1954) The effect of the intravenous injection of DFP and atropine on the level of free acetylcholine in the cerebral cortex of the rabbit. J Pharmacol Exp Ther 111:169–175
Milosevie MP (1969) Acetylcholine content in the brain of rats treated with paraoxon and pyridinium-Z-aldoxime methylchloride. J Pharm Pharmacol 21:469–470
Milosevic MP (1970) Acetylcholine content in the brain of rats treated with paraoxon and obidoxime. Br J Pharmacol 39:732–737
Modak AT, Stavinoha WB, Weintraub ST (1975) Dichlorvos and the cholinergic system: Effects on cholinesterase and acetylcholine and choline contents of rat tissues. Arch Int Pharmacodyn Ther 217:293–301
Namba T, Nolte CT, Jackvel J (1971) Poisoning due to organophosphate insecticides. Am J Med 50:475–492
Nie NH, Hull CH, Jenkins JG, Steinbrenner K, Bent DH (1975) Statistical package for the social sciences. McGraw Hill, New York
Porter R (1963) Unit responses evoked in the medulla oblongata by vagus nerve stimulation. J Physiol (Lond) 168:717–735
Reid WD, Haubrich DR, Krishna G (1971) Enzymatic radioassay for acetylcholine and choline in brain. Anal Biochem 42:390–397
Rickett DL, Adams NL, Gall KJ, Rybczynski SF, Randolph TC (1980) Differentiation of central and peripheral actions in soman-produced respiratory arrest. Soc Neurosci Abstr 6:398
Saito Y, Yamashita I, Yamazaki K, Okada F, Satomi R, Fujieda T (1975) Circadian fluctuation of brain acetylcholine in rats. I. On the variations in the total brain and discrete brain areas. Life Sci 16:281–288
Salmoiraghi GC, Steiner FA (1963) Acetylcholine sensitivity of cat's medullary neurons. J Neurophysiol 26:581–597
Shih TM (1981) Effect of a single dose of soman on levels of acetylcholine and choline in rat brain areas: A time-course study. Soc Neurosci Abstr 7:495
Sidell FR (1974) Soman and sarin: Clinical manifestations and treatment of accidental poisoning by organophosphates. Clin Toxicol 7:1–17
Stavinoha WB, Weintraub ST, Modak AT (1973) The use of microwave heating to inactivate cholinesterase in the rat brain prior to analysis for acetylcholine. J Neurochem 20:361–371
Stewart WC, Anderson EZ (1968) Effect of a cholinesterase inhibitor when injected into the medulla of the rabbit. J Pharmacol Exp Ther 162:309–318
Stitcher DL, Harris LW, Heyl WC, Alter SC (1978) Effects of pyridostigmine and cholinolytics on cholinesterase and acetylcholine in somanpoisoned rats. Drug Chem Toxicol 1:355–362
Vasilescu C, Florescu A (1980) Clinical and electrophysiological study of neuropathy after organophosphorus compound poisoning. Arch Toxicol 43:305–315
Wecker L, Mobley PL, Dettbarn WD (1977a) Effects of atropine on paraoxon-induced alterations in brain acetylcholine. Arch Int Pharmacodyn Ther 227:69–75
Wecker L, Mobley PL, Dettbarn WD (1977b) Central cholinergic mechanisms underlying adaptation to reduced cholinesterase activity. Biochem Pharmacol 26:633–637
Woelk H, Ichikawa KP, Binaglia L, Garacci G, Porcellati G (1974) Distribution and properties of phospholipases A1 and A2 in synaptosomes and synaptosomal fractions of rat brain. J Physiol Chem 355:1535–1542
Wolthuis OL (1976) An alternative therapy against organophosphate poisoning. In: Medical protection against chemical warfare agents. Stockholm International Peace Research Institute, Almqvist and Wiksell, Stockholm, pp 134–144
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Shih, TM. Time course effects of soman on acetylcholine and choline levels in six discrete areas of the rat brain. Psychopharmacology 78, 170–175 (1982). https://doi.org/10.1007/BF00432257
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DOI: https://doi.org/10.1007/BF00432257