Summary
The population of microglial cells in the subependymal layer of the subcommissural organ is sparse in normal adult rats. The number of microglial cells was substantially increased in this area following intraventricular injection of the serotonin neurotoxin 5,6-dihydroxytryptamine (5,6-DHT). In sections of plastic embedded material, 1 μm thick, the majority of phagocytic cells scattered in the subependymal layer had an appearance similar to that described in classical studies of microglial cells. At the electron microscopic level microglial cells exhibited the characteristic elongate nucleus with peripheral chromatin condensation. The perikaryon was scanty, containing strands of rough endoplasmic reticulum. The abundant organelles in the processes included Golgi complexes, mitochondria, rough and smooth endoplasmic reticulum as well as dense and multivesicular bodies. In addition, the processes contained phagocytosed axon terminals originating from the dense serotoninergic input to the subcommissural organ, which had degenerated on accumulating the serotonin neurotoxin. A fraction of the phagocytosed material was contained in subependymal subcommissural organ cells, astrocytes and oligodendrocytes. At the light microscopic level the phagocytosed terminals were visualized histochemically with Schmorl's reaction, which resulted in Prussian Blue precipitates. This allowed screening of microglial cells in complete series of sections through the well-defined subependymal layer of the subcommissural organ.
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References
Adams, C. W. M. (1956) A stricter interpretation of the ferric ferricyanide reaction with particular reference to the demonstration of protein-bound sulphydryl and di-sulphide groups.Journal of Histochemistry and Cytochemistry 4, 23–35.
Baumgarten, F. V., Baumgarten, H. G. &Schlossberger, H. G. (1980) The disposition of intraventricularly injected14C-5,6-DHT-melanin in, and possible routes of elimination from the rat CNS.Cell and Tissue Research 212, 279–94.
Berger, B. (1971) Etude ultrastructurale de la dégénérescence wallérienne expérimentale d'un nerf entièrement amyĺinique: le nerf olfactif. II. Ráctions cellulaires.Journal of Ultrastructure Research 37, 479–94.
Blakemore, W. F. (1972) Microglial reactions following thermal necrosis of the rat cortex: An electron microscope study.Acta neuropathologica (Berlin) 21, 11–22.
Bleier, R. (1975) Supraependymal cells of hypothalamic third ventricle: Identification as resident phagocytes of the brain.Science 189, 299–301.
Bomhard, K. V., Köhl, W., Schinko, I. &Wetzstein, R. (1974) Feinbau und Passageverhalten der Cappillaren im Subcommissuralorgan der Ratte.Zeitschrift für Anatomie und Entwicklungsgeschichte 144, 101–22.
Chan-Palay, V. (1976) Serotonin axons in the supra- and subependymal plexuses and in the leptomeninges; their roles in local alterations of cerebrospinal fluid and vasomotor activity.Brain Research 102, 102–30.
Choi, B. H. (1981) Hematogenous cells in the central nervous system of developing human embryos and fetuses.Journal of Comparative Neurology 196, 683–94.
Cook, R. D. &Wisniewski, H. M. (1973) The role of oligodendroglia and astroglia in Wallerian degeneration of the optic nerve.Brain Research 61, 191–206.
Das, G. D. (1976) Resting and reactive macrophages in the developing cerebellum. An experimental ultrastructural study.Virchows Archiv (Cell Pathology) 20, 287–98.
Fernando, D. A. (1973) An electron microscopic study of the neuroglial reaction in the hypoglossal nucleus after transection of the hypoglossal nerve.Acta anatomica (Basel) 86, 1–14.
Gonatas, N. K., Levine, S. &Shoulson, R. (1964) Phagocytosis and regeneration of myelin in an experimental leukoencephalopathy. An electron microscopic study.American Journal of Pathology 44, 565–83.
Gonatas, N. K., Zimmerman, H. M. &Levine, S. (1963) Ultrastructure of inflammation with edema in the rat brain.American Journal of Pathology 42, 455–69.
Herrlinger, H. (1970) Licht und Elektronenmikroskopische Untersuchungen am Subcommussuralorgan der Maus.Ergebnisse der Anatomie und Entwicklungsgeschichte.42, 5.
Jonsson, G. (1983) Chemical lesioning techniques: Monoamine neurotoxins. InHandbook of Neuroanatomy, Vol. 1:Methods in Chemical Neuroanatomy (edited byBjörklund, A. &Hökfelt, T.), pp. 420–507. Amsterdam: Elsevier Science Publishers B.V.
Kitamura, T. (1980) Dynamic aspects of glial reactions in altered brains.Pathology: Research and Practice 168, 301–43.
Kitamura, T., Miyake, T. &Fujita, S. (1984) Genesis of resting microglia in the gray matter of mouse hippocampus.Journal of Comparative Neurology 226, 421–33.
Kitamura, T., Tsuchihashi, Y. &Fujita, S. (1978) Initial response of silver-impregnated ‘resting microglia’ to stab wounding in rabbit hippocampus.Acta neuropathologica (Berlin) 44, 31–9.
Léger, L., Degueurce, A., Lundberg, J. J., Pujol, J. F. &Møllgård, K. (1983) Origin and influence of the serotoninergic innervation of the subcommisural organ in the rat.Neuroscience 10, 411–23.
Lent, R., Linden, R. &Cavalcante, L. A. (1985) Transient populations of presumptive macrophages in the brain of the developing hamster, as indicated by endocytosis of blood-borne horseradish peroxidase.Neuroscience 15, 1203–15.
Leonhardt, H. (1980) Ependym und circumventriculäre Organe. InHandbuch der mikroskopischen Anatomie der Menschen, Band IV: Nervensystem, lo. Teil. Neuroglia I (edited byOksche, A. &Vollrath, L.), pp. 472–504. Heidelberg, Berlin, New York: Springer-Verlag.
Lewis, P. D. (1968) The fate of the subependymal cell in the adult rat brain, with a note on the origin of microglia.Brain 91, 721–36.
Ling, E. A., Paterson, J. A., Privat, A., Mori, S. &Leblond, C. P. (1973) Investigation of glial cells in semithin sections. I. Identification of glial cells in the brain of young rats.Journal of Comparative Neurology 149, 43–72.
Ludwin, S. K. (1985) Reaction of oligodendrocytes and astrocytes to trauma and implantation. A combined autoradiographic and immunohistochemical study.Laboratory Investigation 52, 20–30.
Markov, D. V. &Dimova, R. N. (1974) Ultrastructural alterations of rat brain microglial cells and pericytes after chronic lead poisoning.Acta neuropathologica (Berlin) 28, 25–35.
Matthews, M. A. (1974) Microglia and reactive ‘M’ cells of degenerating central nervous system: Does similar morphology and function imply a common origin?Cell and Tissue Research 148, 477–91.
Maxwell, D. S. &Kruger, L. (1966) The reactive oligodendrocyte. An electron microscopic study of cerebral cortex following alpha particle irradiation.American Journal of Anatomy 118, 437–60.
Miyake, T., Tsuchihashi, Y., Kitamura, T. &Fujita, S. (1984) Immunohistochemical studies of blood monocytes infiltrating into the neonatal rat brain.Acta neuropathologica (Berlin) 62, 291–7.
Møllgård, K., Lundberg, J. J., Wiklund, L., Lachenmeyer, L. &Baumgarten, H. G. (1978) Morphologic consequences of serotonin neurotoxin administration: Neuron-target cell interaction in the rat subcommissural organ.Annals of the New York Academy of Sciences 305, 262–88.
Møllgård, K. &Wiklund, L. (1979) Serotoninergic synapses on ependymal and hypendymal cells of the rat subcommissural organ.Journal of Neurocytology 8, 445–67.
Mori, S. (1972) Uptake of3H-thymidine by corpus callosum cells following a stab wound of the brain.Brain Research 46, 177–86.
Mori, S. &Leblond, C. P. (1969) Identification of microglia in light and electron microscopy.Journal of Comparative Neurology 135, 57–80.
Mugnaini, E. &Walberg, F. (1964) III: Ultrastructure of neuroglia.Ergebnisse der Anatomie und Entwicklungsgeschichte 37, 194–236.
Murabe, Y. &Sano, Y. (1982) Morphological studies on neuroglia. VI. Postnatal development of microglial cells.Cell and Tissue Research 225, 469–85.
Paterson, J. A., Privat, A., Ling, E. A. &Leblond, C. P. (1973) Investigation of glial cells in semithin sections. III. Transformation of subependymal cells into glial cells, as shown by radioautography after3H-thymidine injection into the lateral ventricle of the brain of young rats.Journal of Comparative Neurology 149, 83–102.
Perry, V. H., Hume, D. A. &Gordon, S. (1985) Immunohistochemical localization of macrophages and microglia in the adult and developing mouse brain.Neuroscience 15, 313–26.
Peters, A., Palay, S. L. &Webster, H. De F. (1976)The Fine Structure of the Nervous System: The Neurons and Supporting Cells. Philadelphia: W. B. Saunders Company.
Phillips, D. E. (1973) An electron microscopic study of macroglia and microglia in the lateral funiculus of the developing spinal cord in the fetal monkey.Zeitschrift für Zellforschung und mikroskopische Anatomie 140, 145–67.
Polak, M., D'amelio, F., Johnson, J. E. &Haymaker, W. (1982) Microglial cells: Origins and reactions. InHistology and Histopathology of the Nervous System (edited byHaymaker, W. &Adams, R. D.), pp. 481–559. Charles C. Thomas, Springfield, Illinois.
Privat, A. &Leblond, C. P. (1972) The subependymal layer and neighboring region in the brain of the young rat.Journal of Comparative Neurology 146, 277–302.
Rio Hortega, P. Del (1919) El tercer elemento de los centros nerviosos. I. La microglia en estado normal. II. Intervencion de la microglia en los procesos patologicos. III. Naturaleza probable de la microglia.Boletin de la Sociedad Espanola de Biologica 9, 68–93.
Rio Hortega, P. Del (1932) Microglia. InCytology and Cellular Pathology of the Nervous System, Vol. 2 (edited byPenfield, W.), pp. 483–534. New York: Paul B. Hoeber.
Schmorl, G. (1934)Die pathologish-histologishen Untersuchungsmethoden, 16th edn (edited byGeipel, P.), pp. 192–202. Berlin: von F. C. W. Vogel.
Shuangshoti, S., Samranvej, P. &Netsky, M. G. (1979) Phagocytic astrocytes and neurons in old encephalomalacia.Journal of Neuropathology and Experimental Neurology 38, 235–41.
Sturrock, R. R. (1983) A light microscopic and scanning electron microscopic study of intraventricular macrophages in the brains of aged mice.Journal of Anatomy 136, 761–71.
Takeuchi, Y. &Sano, Y. (1983) Serotonin distribution in the circumventricular organs of the rat. An immunohistochemical study.Anatomy and Embryology 167, 311–19.
Triarhou, L. C., Cerro, M. Del &Herndon, R. M. (1985) Ultrastructural evidence of phagocytosis by oligodendroglia.Neuroscience Letters 53, 185–9.
Valat, J., Privat, A. &Fulcrand, J. (1983) Multiplication and differentiation of glial cells in the optic nerve of the postnatal rat. A reassessment.Anatomy and Embryology 167, 335–46.
Vaughan, D. W. &Peters, A. (1974) Neuroglial cells in the cerebral cortex of rats from young adulthood to old age: an electron microscope study.Journal of Neurocytology 3, 405–29.
Wiklund, L. (1974) Development of serotonin-containing cells and the sympathetic innervation of the habenular region in the rat brain. A fluorescence histochemical study.Cell and Tissue Research 155, 231–43.
Wiklund, L., Lundberg, J. J. &Møllgård, K. (1977) Species differences in serotoninergic innervation and secretory activity of rat, gerbil, mouse, and rabbit subcommissural organ.Acta physiologica scandinavica, Suppl.452, 27–30.
Wiklund, L. &Møllgård, K. (1979) Neurotoxic destruction of the serotoninergic innervation of the rat subcommissural organ is followed by reinnervation through collateral sprouting of non-monoaminergic neurons.Journal of Neurocytology 8, 469–80.
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Stagaard, M., Balslev, Y., Lundberg, J.J. et al. Microglia in the hypendyma of the rat subcommissural organ following brain lesion with serotonin neurotoxin. J Neurocytol 16, 131–142 (1987). https://doi.org/10.1007/BF02456704
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DOI: https://doi.org/10.1007/BF02456704