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Formation and Turnover of Neurons in Young and Senescent Animals: An Electronmicroscopic and Morphometric Analysis

1985; Wiley; Volume: 457; Issue: 1 Linguagem: Inglês

10.1111/j.1749-6632.1985.tb20805.x

1749-6632

Michael Kaplan,

Neuroscience and Neuropharmacology Research

Annals of the New York Academy of SciencesVolume 457, Issue 1 p. 173-192 Formation and Turnover of Neurons in Young and Senescent Animals: An Electronmicroscopic and Morphometric Analysis MICHAEL S. KAPLAN, MICHAEL S. KAPLAN University of Miami School of Medicine Miami, Florida 33101Search for more papers by this author MICHAEL S. KAPLAN, MICHAEL S. KAPLAN University of Miami School of Medicine Miami, Florida 33101Search for more papers by this author First published: December 1985 https://doi.org/10.1111/j.1749-6632.1985.tb20805.xCitations: 40AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Altman, J. 1962. Are new neurons formed in the brains of adult mammals Science 135: 1127–1128. 2 Altman, J. 1963. Autoradiographic investigation of cell proliferation in the brains of rats and cats. Anat. Rec. 145: 573–591. 3 Altman, J. 1966. Autoradiographic and histological studies of the postnatal neurogenesis. II. A longitudinal investigation of the kinetics, migration and transformation of cells incorporating tritiated thymidine in infant rats, with special reference to postnatal neurogenesis in some brain regions. J. Comp. Neurol. 128: 431–474. 4 Altman, J. 1967 Postnatal growth and differentiation of the mammalian brain, with implications for a morphological theory of memory. In The Neurosciences, a Study Program. G. C. Quarton & T. Melnechuck & F. O. Schmitt, Eds.: 723. Rockefeller University Press. New York , NY . 5 Altman, J. 1969. Autoradiographic and histological studies of postnatal neurogenesis. III. Dating the time of production and onset of differentiation of cerebellar micro-neurons in rats. J. Comp. Neurol. 136: 269–294. 6 Altman, J. 1969. Autoradiographic and histological evidence of postnatal hippocampal neurogenesis. IV. Cell proliferation and migration in the anterior forebrain, with special reference to persisting neurogenesis in the olfactory bulb. J. Comp. Neurol. 137: 433–458. 7 Altman, J. & G. D. Das 1965. Postnatal origin of microneurons in the rat brain. Nature 207: 953–956. 8 Altman, J. & G. D. Das 1965. Autoradiographic and histological evidence of postnatal hippocampal neurogenesis in rats. J. Comp. Neurol. 124: 319–335. 9 Altman, J. & G. D. Das 1966. Autoradiographic and histological studies of postnatal neurogenesis. I. A longitudinal investigation of the kinetics, migration and transformation of cells incorporating tritiated thymidine in neonate rats, with special reference to postnatal neurogenesis in some brain regions. J. Comp. Neurol. 126: 337–390. 10 Altman, J. & G. D. Das 1967. Postnatal neurogenesis in the guinea pig. Nature 214: 1098–1101. 11 Andrews, A. D., S. F. Barrett & J. H. Robbins 1976. Relation of DNA repair processes to pathological aging of the nervous system in xeroderma pigmentosum. Lancet 1(7973): 1318–1320. 12 Angevine, J. B., Jr 1965. Time of neuron origin in the hippocampal region, an auto-radiographic study in the mouse. Exp. Neurol. 13(Suppl. 2): 1–70. 13 Bayer, S. A., J. W. Yackel & P. S. Puri 1982. Neurons in the rat dentate gyrus granular layer substantially increase during juvenile and adult life. Science 216: 890–892. 14 Bayer, S. A. 1983.3H-thymidine-radiographic studies of neurogenesis in the rat olfactory bulb. Exp. Brain Res. 50: 329–340. 15 Bohn, R. C. & R. B. Mitchell 1976. Cytophotometric identification of tetraploid Purkinje cells in young and aged rats. J. Neurobiol. 7: 255–258. 16 Boulder Committee. 1970. Embryonic vertebrate central nervous system: Revised terminology. Anat. Rec. 166: 257–262. 17 Brightman, M. W. 1977. Morphology of blood-brain interfaces. In The Ocular and Cerebrospinal Fluids. L. Z. Bito & H. Davson & S. D. Fenstermacher, Eds.: 1–25. National Institutes of Health. Bethesda , MD . 18 Brightman, M. W., I. Klatzo, Y. Olson & T. S. Reese 1970. The blood-brain barrier to proteins under normal and pathological conditions. J. Neur. Sci. 10: 215–239. 19 Brizzee, K. R. & J. M. Ordy 1979. Age pigments, cell loss and hippocampal function. Mech. Age Devel. 9: 143–162. 20 Bruckner, G. V., V. Mares & D. Besold 1976. Neurogenesis in the visual system of the rat. An autoradiographic investigation. J. Comp. Neurol. 166: 245–256. 21 Caley, D. W. & D. S. Maxwell 1968. An electron microscopic study of neurons during postnatal development of the rat cerebral cortex. J. Comp. Neurol. 133: 17–44. 22 Cowan, W. M., B. B. Stanfield & K. Kishi 1980. The development of the dentate gyrus. Curr. Top. Dev. Biol. 15: 103–159. 23 D'Agata, P. M. 1950. Richerche sulla morfologia e classificazione dell' oligodendroglia. Riv. Neurol. 20: 81–127. 24 Das, G. D. & J. Altman 1971. Postnatal neurogenesis in the cerebellum of the cat and tritiated thymidine autoradiography. Brain Res. 30: 323–330. 25 DeCastro, F. 1946. Sobre el comportamiento y significacion de la oligodendroglia en la substancia gris central y de los gliocitos en los ganglios perifericos. Arch. Histol. Nor. Patol. 3: 318–343. 26 Diamond, M. C., R. E. Johnson and C. A. Ingham 1975 Morphological changes in the young, adult and aging rat cerebral cortex, hippocampus and diencephalon. Behav. Bid Bid: 163–174. 27 Diamond, M. C., R. E. Johnson & M. W. Gold 1977. Changes in neuron number and size and glia number in the young, adult, and aging medial occipital cortex. Behav. Biol. 20: 409–418. 28 Fujita, S. 1974. DNA constancy in neurons of the human cerebellum and spinal cord as revealed by Feulgen cytophotometry and cytofluoromentry. J. Comp. Neurol. 155: 195–202. 29 Fujita, S., T. Hattori, M. Fukuda & T. Kitamura 1974. DNA contents in Purkinje cells and inner granule neurones in the developing rat cerebellum. Dev. Growth Differ. 16: 205–211. 30 Fujita, S., S. Yoshida & M. Fukuda 1971. Improvement of technique to minimize non-specific absorption in microspectrophotometric measurement of nuclear DNA. Acta. Histochem. Cytochem. 4: 126–136. 31 Goldman, G. & P. D. Coleman 1981. Neuron numbers in locus coerulus do not change with age in Fisher 344 rat. Neurobiol. Aging 2: 33–36. 32 Graziadei, P. P. C. & G. A. Monti Graziadei 1978. Continuous nerve cell renewal in the olfactory system. In Handbook of Sensory Physiology. Vol. 9: Development of Sensory Systems. M. Jacobson, Ed.,: 55–83, Springer-Verlag. Berlin . 33 Graziadei, P. P. C. & G. A. Monti Graziadei 1979. Neurogenesis and neuron regeneration in the olfactory system of mammals. I. Morphological aspects of differentiation and structural organization of the olfactory sensory neurons. J. Neurocytol. 8: 1–18. 34 Gueneau, G., A. Privat, J. Drouet & L. Court 1982. Subgranular zone of the dentate gyrus of young rabbits as a secondary matrix: A high-resolution autoradiographic study. Dev. Neurosci. 5: 345–358. 35 Hain, R. F., W. O. Rieke & N. B. Everett 1961. Evidence of mitosis in neuroglia as revealed by radioautography employing tritiated thymidine. J. Neuropathol. Exp. Neurol. 19: 147–148. 36 Hamilton, A. 1901. The division of differentiated cells of the central nervous system of the white rat. J. Comp. Neurol. 11: 297–324. 37 Hatai, S. 1901. Mitosis in the nerve cells of the cerebellar cortex of the foetal cat. J. Comp. Neurol. 11: 277. 38 Hawkers, R., E. Niday & A. Matus 1982. MIT-23: A mitochondrial marker for terminal neuronal differentiation defined by a monoclonal antibody. Cell 28: 253–258. 39 Herman, C. J. & L. N. Lapham 1968. DNA content of neurons in the cat hippocampus. Science 160: 537. 40 Herman, C. J. & L. W. Lapham 1969. Neuronal polyploidy and nuclear volume in cat central nervous system. Brain Res. 15: 35–48. 41 Hinds, J. W. 1968. Autoradiographic study of histogenesis in the mouse olfactory bulb I. Time of origin of neurons and neuroglia. J. Comp. Neurol. 134: 287–304. 42 Hinds, J. W. 1972. Early neuron differentiation in the mouse olfactory bulb I. Light microscopy. J. Comp. Neurol. 146: 233–252. 43 Hinds, J. W. 1972. Early neuron differentiation in the mouse olfactory bulb II. Electron microscopy. J. Comp. Neurol. 146: 253–276. 44 Hinds, J. W. & N. A. McNelly 1977. Aging of the rat olfactory bulb: Growth and atrophy of constituent layers and changes in size and number of mitral cells. J. Comp. Neurol. 171: 345–368. 45 Hinds, J. W. & N. A. McNelly 1981. Aging in the rat olfactory system: Correlation of changes in the olfactory epithelium and olfactory bulb. J. Comp. Neurol. 203: 441–453. 46 Hinds, J. W., P. L. Hinds & N. A. McNelly 1984. An autoradiographic study of the mouse olfactory epithelium: Evidence for long-lived receptors. Anat. Rec. 210: 375–383. 47 Hommes, O. R. & C. P. Leblond 1967. Mitotic division of neuroglia in the normal adult rat. J. Comp. Neurol. 129: 269–278. 48 Howard, E. 1973. DNA content of rodent brains during maturation and aging, and autoradiography of postnatal DNA synthesis in monkey brain. Prog. Brain Res. 40: 91–114. 49 Hughes, A. F. 1953. The growth of embryonic neurites. A study on cultures of chick neuronal tissue. J. Anat. 91: 150–162. 50 Hughes, W. L., S. L. Commerford, D. Gitlin, R. C. Krueger, B. Schultze, V. Shah & P. Reilly 1964. Deoxyribonucleic acid metabolism in vivo: I. Cell proliferation and death measured by incorporation and elimination of iododeoxyuridine. Fed. Prod. 23: 640–648. 51 Jacobson, M. 1978. Differentiation, growth and maturation of neurons. In Developmental Neurobiology, Ed. 2.: 118. Plenum Press. New York , NY . 52 Kaplan, M.S. 1981. Neurogenesis in the 3-month-old rat visual cortex. J. Comp. Neurol. 195: 323–338. 53 Kaplan, M. S. 1983. Proliferation of subependymal cells in the adult primate CNS: Differential uptake of DNA labeled precursors. J. Hirnforsch. 24: 23–33. 54 Kaplan, M. S. & D. Bell 1981. Neurogenesis in the dentate gyrus of the 9- and 11-month-old rat. Neurosci. Abstr. 7: 62 (abstr. #8). 55 Kaplan, M. S. & D. H. Bell 1983. Neuronal proliferation in the 9-month-old rodent- radioautographic study of granule cells in hippocampus. Exp. Brain Res. 52: 1–5. 56 Kaplan, M. S. & D. H. Bell 1984. Mitotic neuroblasts in the 9-day-old and 11-month-old rodent hippocampus. J. Neurosci. 4: 1429–1441. 57 Kaplan, M. S. & J. W. Hinds 1977. Neurogenesis in the adult rat: Electron microscopic analysis of light radioautographs. Science 197: 1092–1094. 58 Kaplan, M. S. & J. W. Hinds 1980. Gliogenesis of astrocytes and oligodendrocytes in the neocortical grey and white matter of the adult rat: Electron microscopic analysis of light radioautographs. J. Comp. Neurol. 193: 711–727. 59 Kaplan, M. S., N. A. McNelly & J. W. Hinds 1985. Population dynamics of adult-formed granule neurons of' the rat olfactory bulb. J. Comp. Neurol. 239: 117–125. 60 King, J. S. 1968. A light and electron microscopic study of perineuronal glial cells and processes in the rabbit neocortex. Anat. Rec. 161: 111–124. 61 Klatzo, I. 1952. A study of glia by the Golgi method. Lab. Invest. 1: 345–350. 62 Klein, A. W. & M. Michel 1977. A morphometric study of the neocortex of young adult and old maze-differentiated rats. Mech. Age. Devel. 6: 441–452. 63 Konigsmark, B. W. & E. A. Murphy 1970. Neuronal populations in the human brain. Nature 228: 1335–1336. 64 Korr, H., B. Schultze & W. Maurer 1973. Autoradiographic investigations of glial proliferation in the brain of adult mice I. The DNA synthesis phase of neuroglia and endothelial cells. J. Comp. Neurol. 150: 169–176. 65 Kusch, A. A. & V. N. Yarygin 1965. Polyploid of mono- and binucleate neurons in upper cervical ganglion of rabbit. Tsitologia 7: 228–233. 66 Lapham, L. W. 1965. The tetraploid DNA content of normal human Purkinje cells and its development during the perinatal period: A quantitative cytochemical study. Excerpta Med. 100: 445–449. 67 Lapham, L. W. 1968. Tetraploid DNA content of Purkinje neurons of human cerebellar cortex. Science 159: 310–312. 68 Lapham, L. W., R. D. Lentz, D. J. Woodward, B. J. Hoffer & C. J. Herman 1971. Postnatal development of tetraploid DNA content in the Purkinje neuron of the rat: An aspect of cellular differentiation. In Cellular Aspect of Neural Growth and Differentiation. D. Pease, Ed: 61–71. UCLA Forum in Medical Sciences No. 14. University of California Press. Berkeley , CA . 69 Leblond, C. P. & B. E. Walker 1956. Renewal of cell populations. Physiol. Rev. 36: 255–276. 70 Lee Ding-Jen, W. Prensky, G. Krause & W. L. Hughes 1976. Blood thymidine level and iododeoxyuridine incorporation and reutilization in DNA in mice given long-acting thymidine pellets. Cancer Res. 36: 4577–4583. 71 Lentz, R. D. & L. W. Lapham 1969. A quantitative cytochemical study of the DNA content of neurons of rat cerebellar cortex. J. Neurochem. 16: 379–384. 72 Lentz, R. D. & L. W. Lapham 1970. Postnatal development of tetraploid DNA content in rat Purkinje cells: A quantitative cytochemical study. J. Neuropathol. Exp. Neurol. 29: 43–56. 73 Levitt, P. & P. Rakic 1980. Immunoperoxidase localization of glial fibrillary acidic protein in radial glial cells and astrocytes of the developing rhesus monkey brain. J. Comp. Neurol. 193: 815–840. 74 Levitt, P., M. L. Cooper & P. Rakic 1981. Coexistence of neuronal and glial precursor cells in the cerebral ventricular zone of the fetal monkey: An ultrastructural immunoperoxidase analysis. J. Neurosci. 1: 27–39. 75 Lewis, P. D. 1968 Mitotic activity in the primate subependymal layer and the genesis of gliomas. Nature 217: 974–975. 76 Ling, E. A., J. A. Paterson, A. Privat, S. Mori & C. P. Leblond 1973. Investigation of glial cells in semithin sections I. Identification of glial cells in the brain of young rats. J. Comp. Neurol. 149: 43–72. 77 Mann, D. M. A. & P. O. Yates 1973. Polyploidy in the human nervous system I. The DNA content of neurons and glia of the cerebellum. J. Neurol. Sci. 18: 183–196. 78 Mann, D. M.A., P. O. Yates & C. M. Barton 1978. The DNA content of Purkinje cells in mammals. J. Comp. Neurol. 180: 345–348. 79 Manuelidis, L. & E. E. Manuelidis 1974. On the DNA content of cerebellar Purkinje cells in vivo and in vitro. Exp. Neurol. 43: 192–206. 80 Marangos, P. J., D. E. Schmechel, A. M. Parma & F. K. Goodwin 1980. Developmental profile of neuron-specific (NSE) and non-neuronal (NNE) enolase. Brain Res. 190: 185–193. 81 Marés, V., Z. Lodin & S. Sacha 1973. A cytochemical and autoradiographic study of nuclear DNA in mouse Purkinje cells. Brain Res. 53: 273–289. 82 Mareś, V. & Z. Lodin 1974. An autoradiographic study of DNA synthesis in adolescent and adult mouse forebrain. Brain Res. 76: 557–561. 83 Mareś, V., Z. Lodin & M. Jilek 1975. An estimate of the number of cells arising by division in mouse cerebral hemispheres from age one to 12 months: An autoradiographic study of DNA synthesis. J. Comp. Neurol. 161: 471–482. 84 Mareś, V., B. Schultze & W. Maurer 1974. Stability of DNA in Purkinje cell nuclei of the mouse. J. Cell Biol. 63: 665–674. 85 Matsuyama, S. S. 1980. Cell proliferation and the aging brain. Age 3: 43–47. 86 Messier, B. & C. P. Leblond 1960. Cell proliferation and migration as revealed by radioautography after injection of H3-thymidine into male rats and mice. Am. J. Anat. 106: 247–285. 87 Messier, B., C. P. Leblond & I. Smart 1958. Presence of DNA synthesis and mitosis in the brain of young adult mice. Exp. Cell Res. 14: 224–226. 88 Morselt, A. F. W., D. J. Braakman & J. James 1972. Feulgen DNA and fast green histone estimations in individual cell nuclei of the cerebellum of young and old rats. Acta Histochem. 43: 281–286. 89 Noetzel, J. & J. Rox 1964. Autoradiographische Untersuchungen über Zellteilung und Zellentwicklung im Gehirn der erwachsenen Maus und der erwachsenen Rhesus-Affen nach Injektion von radioakitivem Thymidin. Acta Neuropathol. 3: 326–342. 90 Nováková, V., W. Sandritter & G. Schlueter 1970. DNA content of neurons in rat central nervous system. Exp. Cell Res. 60: 454–456. 91 Nowakowski, R. S. & P. Rakic 1979. The mode or migration of neurons to the hippocampus: A Golgi and electron microscopic analysis in fetal rhesus monkey. J. Neurocytol. 8: 697–718. 92 Nowakowski, R. S. & P. Rakic 1981. The site of origin and route and rate of migration of neurons to the hippocampal region of the Rhesus monkey. J. Comp. Neurol. 196: 129–154. 93 Ordy, J. M., K. R. Brizzee, B. Kaack & J. Hansche 1978. Age differences in short term memory and cell loss in the cortex of the rat. Gerontology 24: 276–285. 94 Penfield, W. 1932. Neuroglia: Normal and pathological. In Cytology and Cellular Pathology of the Nervous System, Vol. II, W. Penfield, Ed.: 423–479. Hoeber. New York , NY . 95 Peters, A., S. L. Palay & H. de Webster 1976. In: The Fine Structure of the Nervous System: The Neurons and Supporting Cells. W. B. Saunders. Philadelphia , Pa . 96 Rakic, P. & R. S. Nowakowski 1981. The time of origin of neurons in the hippocampal region of the rhesus monkey. J. Comp. Neurol. 196: 99–128. 97 Reznikov K. Yu & L. B. Verbitskaya, V. S. Kesarev & I. V. Viktorov 1978. Postnatal histogenesis and proliferation of cells and the parietal neocortex in normal mice and after brain trauma. Bull. Exp. Biol. Med. 85: 242–244. 98 Rio-Hortega, P. del. 1928. Tercera aportación al conocimiento morfológico e inter-pretactión functional de la oligodendroglia. Arch. Histol. Nor. Patol. 6: 132–183 and 239–306 (reprinted in 1956). 99 Rosselli-Austin, L. & J. Altman 1979. The postnatal development of the main olfactory bulb of the rat. J. Dev. Physiol. 1: 295–313. 100 Sandritter, W., V. Nováková, J. Pilny & G. Kiefer 1967. Cytophotometrische Messungen des Nukleinsäure und Proteingehaltes von Ganglienzellen der Ratte während der postnatalen Entwicklung und im Alter. Z. Zellforsch. 80: 145–152. 101 Schaper, A. 1894. Die morphologische und histologische Entwicklung des Kleinhirns der Teleostiere. Anat. Anz. 9: 489. 102 Schaper, A. 1897. Die frühesten differenzierungsvorgänge im Zentral Nervensystems. Arch, Entwicklungsmech. Org. 5: 81. 103 Schlessinger, A. R., W. M. Cowan & D. I. Gottlieb 1975. An autoradiographic study of the time of origin and the pattern of granule cell migration in the dentate gyrus of the rat. J. Comp. Neurol. 159: 149–176. 104 Schmechel, D. E., M. W. Brightman & P. J. Marangos 1980. Neurons switch from non–neuronal enolase to neuron-specific enolase during differentiation. Brain Res. 190: 195–214. 105 Schultz, R. L. 1964. Macroglial identification in electron micrographs. J. Comp. Neurol. 122: 281–295. 106 Schultze, B., B. Nowak & W. Maurer 1974. Cycle times of the neural epithelial cells of various types of neurons in the rat. An autoradiographic study. J. Comp. Neurol. 158: 207–218. 107 Shoukimas, G. M. & J. W. Hinds 1978. The development of the cerebral cortex of the embryonic mouse: An electron microscopic serial section analysis. J. Comp. Neurol. 179: 795–830. 108 Sidman, R. L. 1970. Autoradiographic methods and principles for study of the nervous system with H3-thymidine. In Contemporary Research Methods in Neuroanatomy. W. J. H. Nauta & S. O. E. Ebbeson, Eds.: 252–274. Springer. Berlin . 109 Sidman, R. L. 1970. Cell proliferation, migration and interaction in the developing mammalian central nervous system. In The Neurosciences: Second Study Program. F. O. Schmitt, Ed.: 100–107. Rockefeller University Press. New York , NY . 110 Slater, E. & M. Roth 1969. Clinical Psychiatry, 3rd ed.: 543. Williams and Wilkins. Baltimore , MD . 111 Smart, I. 1961. The subependymal layer of the mouse brain and its cell production as shown by radioautography after H3-thymidine injection. J. Comp. Neurol. 116: 325–347. 112 Smart, I. & C. P. Leblond 1961. Evidence for division and transformation of neuroglia cells in the mouse brain as dervied from radioautography after injection of H3-thymidine. J. Comp. Neurol. 116: 349–367. 113 Spiedel, C. C. 1933. Studies of living nerves. II. Activities of ameboid growth cones, sheath cells, and myelin segments, as revealed by prolonged observations of individual nerve fibers in frog tadpoles. Am. J. Anat. 52: 1–79. 114 Stanfield, B. & W. M. Cowan 1979. The development of the hippocampus and dentate gyrus in normal and reeler mice. J. Comp. Neurol. 185: 423–460. 115 Terry, R. D. & H. M. Wisniewski 1975. Structural and chemical changes of the aged human brain. In Aging, vol. 2. S. Gershon & A. Raskin, Eds.: 127–141. Raven Press. New York , NY . 116 Warwick, R. & P. Williams 1973. Gray's Anatomy. 35th ed. W. B. Saunders. Philadelphia , Pa . 117 Yamada, K. M., B. S. Spooner & N. K. Wessells 1971. Ultrastructure and function of growth cones and axons of cultured nerve cells. J. Cell Biol. 49: 614–635. 118 Nottebohm, F. 1985. Neuronal replacement in adulthood. Ann. N.Y. Acad. Sci. 457: 143–161 (this volume). Citing Literature Volume457, Issue1Hope for a New NeurologyDecember 1985Pages 173-192 ReferencesRelatedInformation