Summary
In the borderline area between the hemal milieu of the choroid plexuses (PC) and the interstitial cerebrospinal-fluid (CSF) compartment, ground substances displaying increased amounts of basal lamina-like material and containing negatively charged sulfated glycosaminoglycans appear to be endowed with selective properties. They may function as a sieve or filtration barrier gradually controlling the passage of substances between the two milieus, depending on their charge and molecular weight. Special structural features and functional properties of ependymal cells are associated with such bordering structures. These ependymal cells are transitional elements between choroid epithelium and ciliated ependymal cells. As judged from experiments with horseradish peroxidase and conventional electron microscopy, occluding junctions at the basal pole of these cells prevent a rapid alteration in the milieu conditions, enabling gradual change from hemal to CSF composition near the bases of these transitional ependymal cells. The borderline structures between the hemal milieu of the PC and the area postrema (1) are established by leptomeningeal cells which face a hemal mileu, (2) are endowed with conspicuous tight junctions, and (3) produce a flocculent substance, the light-microscopic equivalent of which is PAS positive. These structures probably establish an effective barrier between the two milieus of different composition. The functional characteristics and the morphology of the meningeal cells facing the hemal milieu of neurohemal regions resemble closely the neurothelial cells, which are interposed between the CSF milieu and the hemal milieu in the dura mater. The present results suggest that the location between the hemal and the CSF milieu is decisive for the transformation of leptomeningeal cells into “neurothelial” elements.
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References
Andres KH (1967) Über die Feinstruktur der Arachnoidea und Dura mater von Mammalia. Z Zellforsch 79:272–295
Carpenter StJ, McCarthy LW, Borison HL (1970) Electron microscopic study on the epiplexus (Kolmer) cells of the cat choroid plexus. Z Zellforsch 110:471–486
Dermietzel R (1975) Junctions in the central nervous system of the cat. V. The junctional complex of the pia-arachnoid membrane. Cell Tissue Res 164:309–329
Farquhar MG, Palade GE (1963) Junctional complexes in various epithelia. J Cell Biol 17:375–412
Farquhar MG, Palade GE (1965) Cell junctions in amphibian skin. J Cell Biol 26:263–291
Fukuda Y, Honda Y, Schläfke ME, Loeschke HH (1978) Effect of H+ on the membrane potential of silent cells in the ventral and dorsal surface layers of the rat medulla in vitro. Pflügers Arch 376:229–235
Hageman GS, Kelly DE (1984) Fibrillar and cytoskeletal substructure of tight junctions: analysis of single-stranded tight junctions linking fibroblasts of the lamina fusca in hamster eyes. Cell Tissue Res 238:545–557
Kanwar YS, Farquhar MG (1979) Anionic sites of the glomerular basement membrane. J Cell Biol 81:137–153
Kolmer W (1921) Über eine eigenartige Beziehung von Wanderzellen zu dem Choroidalplexus des Gehirns der Wirbeltiere. Anat Anz 54:15–19
Krisch B (1980) Two types of luliberin-immunoreactive perikarya in the preoptic area of the rat. Cell Tissue Res 212:443–455
Krisch B (1982) Distribution of somatostatin and luliberin in the rat brain. In: Farner DS, Lederis K (eds) Neurosecretion. Molecules, cells, systems. Plenum Press, New York London, pp 49–59
Krisch B, Buchheim W (1984) Access and distribution of exogenous substances in the intercellular clefts of the rat adenohypophysis. Cell Tissue Res 236:439–452
Krisch B, Leonhardt H (1980) Neurohormones in the intercellular clefts and in glia cells of the rat brain. Cell Tissue Res 211:251–268
Krisch B, Leonhardt H, Buchheim W (1978a) The functional and structural border of the neurohemal region of the median eminence. Cell Tissue Res 192:327–339
Krisch B, Leonhardt H, Buchheim W (1978b) The functional and structural border between the CSF-and blood-milieu in the circumventricular organs (organum vasculosum laminae terminalis, subfornical organ, area postrema) of the rat. Cell Tissue Res 195:485–497
Krisch B, Leonhardt H, Oksche A (1983) The meningeal compartments of the median eminence and the cortex. A comparative analysis in the rat. Cell Tissue Res 228:597–640
Krisch B, Leonhardt H, Oksche A (1984) Compartments and perivascular arrangement of the meninges covering the cerebral cortex of the rat. Cell Tissue Res 238:459–474
Leonhardt H (1980) Ependym und circumventrikuläre Organe. In: Oksche A, Vollrath L (eds) Handbuch der mikroskopischen Anatomie des Menschen. Neuroglia I. Nervensystem, 10. Teil Springer, Berlin Heidelberg New York, pp 177–666
Luft JH (1971) Ruthenium red and violett. II. Fine structural localization in animal tissues. Anat Rec 771:369–416
Merker G (1972) Einige Feinstrukturbefunde an den Plexus chorioidei von Affen. Z Zellforsch 134:556–584
Nabeshima S, Reese TS, Landis DMD, Brightman MW (1975) Junctions in the meninges and marginal glia. J Comp Neurol 164:127–170
Nakamura S, Milhorat ThH (1978) Nerve endings in the choroid plexus of the fourth ventricle of the rat: electron microscopic study. Brain Res 153:285–293
Oksche A (1984) Das Plexusepithel: Struktur und Funktion. Verh Anat Ges 78:71–83
Pearse AGE (1968) Histochemistry — theoretical and applied. 3rd ed. Vol 1. Little, Brown and Co, Boston
Peress NS, Tompkins D (1981) Effect of molecular charge on choroid-plexus permeability: tracer studies with cationized ferritins. Cell Tissue Res 219:425–431
Rascol MM, Izard TY (1976) The subdural neurothelium of the cranial meninges in man. Anat Rec 186:429–436
Schachenmayr W, Friede RL (1978) The origin of subdural neomembranes. I. Fine structure of the dura-arachnoid interface in man. Am J Pathol 92:53–68
Schusdziarra V, Harris V, Unger RH (1979) Halfe-life of somatostatin-like immunoreactivity in canine plasma. Endocrinology 104:109–110
Spicer SS, Schulte GN, Thomopoulus RT, Parmley RT, Takagi M (1983) Cytochemistry of complex carbohydrates by light and electron microscopy: available methods and their application. In: Wagner BM, Fleischmeier R, Kaufman N (eds) Williams and Wilkins, Baltimore, pp 163–211
Thürauf N, Dermietzel R, Kalweit P (1983) Surface charges associated with fenestrated brain capillaries. J Ultrastruct Res 84:103–110
Wagner H-J, Barthel J, Pilgrim Ch (1983) Permeability of the external glial limiting membrane of rat parietal cortex. Anat Embryol 166:427–437
Westergaard E (1970) The lateral cerebral ventricles and the ventricular walls. An anatomical, histological and electron microscopic investigation on mice, rats, guinea pigs and rabbits. Thesis, Andelsbogtrykkeriet Odense
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Dedicated to Professor Dr. med., Dr. med. vet. h.c., Dr. phil. h.c. Andreas Oksche on the occasion of his 60th birthday
Supported by the Deutsche Forschungsgemeinschaft (Grant Kr 569/5-1)
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Krisch, B. The functional and structural borders between the CSF-and blood-dominated milieus in the choroid plexuses and the area postrema of the rat. Cell Tissue Res. 245, 101–115 (1986). https://doi.org/10.1007/BF00218091
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DOI: https://doi.org/10.1007/BF00218091