Summary
The development of the cerebellum has been studied in normal and reeler mice, from embryonic day fourteen, i.e. when morphogenesis begins in this organ, to birth. The cerebellar nuclei develop according to a similar sequence in both genotypes. Their neurons migrate into the rostral field of the cerebellar bud where they condense in a rounded mass, well defined at E14. From E17, this cell contingent spreads transversally and the three roof nuclei become clearly defined. In reeler mutants, there seems to be an abnormal development of the architectonics of the lateral nucleus. The Purkinie cells migrate into the cortex at the same time in both genotypes. In the normal animal,from E14 onward, Purkinje cells are condensed in a clearly defined plate, where they assume a radial organization. By contrast, the mutant Purkinje cells are not arranged in a plate but are scattered in the periphery of the cortex. The neurons of the external granular layer are identical in both genotypes. Radial glial fibers and early Golgi epithelial cells appear to be normally present in the reeler embryo. The foliation of the cerebellar cortex begins at E17 in the normal embryo. From this stage onward, foliation is increasingly deficient in reeler mutants. Based on these observations, it is suggested that, in normal cerebellar development, a specific, genetically determined mechanism is responsible for the organization and the stabilization of postmigratory neurons and that this mechanism is affected by the reeler mutation.
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References
Altman J, Bayer SA (1978) Prenatal development of the cerebellar system in the rat. I. Cytogenesis and histogenesis of the deep nuclei and the cortex of the cerebellum. J Comp Neurol 179:23–48
Alvarado-Mallart RM, Sotelo C (1982) Differentiation of cerebellar anlage heterotopically transplanted to adult rat brain: a light and electron microscopic study. J Comp Neurol 212:247–267
Boulder Committee (1970) Embryonic vertebrate central nervous system: revised terminology. Anat Rec 166:257–261
Cajal SR (1911) Histologie du système nerveux de l'homme et des vertébrés. CSIC, Madrid 1952
Caviness VS (1982) Neocortical histogenesis in normal and reeler mice: a developmental study based upon 3H thymidine autoradiography. Dev Brain Res 4:293–302
Caviness VS, Rakic P (1978) Mechanisms of cortical development: a view from mutations in mice. Ann Rev Neurosci 1:297–326
Caviness VS, Sidman RL (1972) Olfactory structures of the forebrain in the reeler mutant mouse. J. Comp Neurol 145:85–104
Dowd LW (1929) The development of the dentate nucleus in the pig. J Comp Neurol 48:471–499
Frost DO, Caviness VS, Sachs GM (1982) Fiber abnormalities of thalamus and midbrain in reeler mutant mice. Soc Neurosci abstr 8:821
Gabe M (1968) Techniques histologiques. Masson, Paris
Goffinet AM (1979) An early developmental defect in the cerebral cortex of the reeler mutant mouse. Anat Embryol 157:205–216
Goffinet AM (1983) The embryonic development of the inferior olivary complex in normal and reeler (rlORL) mutant mice. J Comp Neurol (in press)
Goffinet AM (1983) Abnormal development of the facial nerve nucleus in reeler mutant mice. J Anat (in press)
Gould BB, Rakic P (1981) The total number, time of origin and kinetics of proliferation of neurons comprising the deep cerebellar nuclei in the rhesus monkey. Exp Brain Res 44:195–206
Haddara MA, Nooreddin MA (1966) A quantiative study on the postnatal development of the cerebellar vermis of mouse. J Comp Neurol 128:245–254
Hinds JW, Ruffett TL (1971) Cell proliferation in the neural tube: an electronmicroscopic and Golgi analysis in the mouse cerebral vesicle. Z Zellforsch 115:226–264
Korneliussen HK (1967) Cerebellar corticogenesis in Cetacea, with special reference to regional variations. J Hirnforsch 9:151–185
Korneliussen HK (1968) On the ontogenetic development of the cerebellum (nuclei, fissures and cortex) of the rat, with special reference to regional variations in corticogenesis. J Hirnforsch 10:379–412
Kromer LF, Björklund A, Steveni U (1979) Intracephalic implants of embryonic rhombic lip into adult rat provide model systems for studying cerebellar development. Soc Neurosci Abstr 5:167
Mallet J, Huchet M, Pougeois R, Changeux JP (1976) Anatomical, physiological and biochemical studies on the cerebellum from mutant mice. III. Protein differences associated with the weaver, staggerer and nervous mutations. Brain Res 103:291–312
Mariani J, Crepel F, Mikoshiba K, Changeux JP, Sotelo C (1977) Anatomical, physiological and biochemical studies of the cerebellum from reeler mutant mice. Phil Trans Roy Soc Lond B 281:1–28
Martin MR (1981) Morphology of the cochlear nucleus of the normal and reeler mutant mouse. J Comp Neurol 197:141–152
Miale IL, Sidman RL (1961) An autoradiographic analysis of histogenesis in the mouse cerebellum. Exp Neurol 4:277–296
Mullen RJ (1977) Genetic dissection of the CNS with mutant-normal mouse and rat chimeras. Soc Neurosci Symp 2:47–65
Pinto-Lord MC, Caviness VS (1979) Determinants of cell shape and orientation: a comparative analysis of cell-axon interrelationships in the developing neocortex of reeler and normal mice. J Comp Neurol 187:49–70
Pinto-Lord MC, Cvrard P, Caviness VS (1982) Obstructed neuronal migration along glial fibers in the neocortex of the reeler mouse: a Golgi-EM analysis. Dev Brain Res 4:379–393
Rakic P (1971) Neuron-glia relationship during granule cell migration in developing cerebellar cortex. A Golgi and electronmicroscopic analysis in Macacus rhesus. J Comp Neurol 141:283–312
Rakic P (1976) Synaptic specificity in the cerebellar cortex: study of anamalous circuits induced by single gene mutations in mice. Cold Spring Harb Symp Quant Biol XL:333–346
Rakic P, Sidman RL (1970) Histogenesis of cortical layers in human cerebellum, particularly the lamina dissecans. J Comp Neurol 139:473–500
Rüdeberg SI (1961) Morphometric studies on the cerebellar nuclei and their homologization in different vertebrates, including man. Thesis, Univ Lund
Sensenbrenner M, Wittendorp E, Barakat I, Rechenmann RV (1980) Autoradiographic study of proliferating brain cells in culture. Dev Biol 75:268–277
Sidman RL (1970) Reeler: the anatomical stratum. Neurosci Res Prog Bull 10:339–348
Sievers J, Mangold U, Berry M, Allen C, Schlossberger HG (1981) Experimental studies on cerebellar foliation. I) A qualitative morphological analysis of cerebellar fissuration defects after neonatal treatment with 6-OHDA in the rat. J Comp Neurol 203:751–769
Sotelo C, Privat A (1978) Synaptic remodeling of the cerebellar circuitry in mutant mice and experimental cerebellar malformations. Acta Neuropathol (Berl) 43:19–34
Stanfield BB, Cowan MW (1979) The development of the hippocampus and dentate gyrus in normal and reeler mice. J Comp Neurol 185:423–460
Steindler DA (1977) Trigemino-cerebellar projections in normal and reeler mutant mice. Neurosci Lett 6:293–300
Swarz JR, Oster-Granite ML (1978) Presence of radial glia in foetal mouse cerebellum. J Neurocytol 7:301–312
Tello JF (1940) Histogenèse du cervelet et ses voies chez la souris blanche. Travaux du Laboratoire de Recherche Biologique de Madrid, vol XXXII:1–74
Uzman LL (1960) The histogenesis of the mouse cerebellum as studied by its tritiated thymidine uptake. J Comp Neurol 114:137–159
Willis RA (1971) Nervous tissue in teratomas. In: J Minckler (Ed) Pathology of the nervous system, 2:pp 1937–1943
Wilson L, Sotelo C, Caviness VS (1981) Heterologous synapses upon Purkinje cells in the cerebellum of the reeler mutant mouse: an experimental light and electronmicroscopic study. Brain Res 213:63–82
Wyss JM, Stanfield BB, Cowan WM (1980) Structural abnormalities in the olfactory bulb of the reeler mouse. Brain Res 188:566–571
Zecevic N, Rakik P (1976) Differentiation of Purkinje cells and their relationship to other components of developing cerebellar cortex in man. J Comp Neurol 167:27–48
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Goffinet, A.M. The embryonic development of the cerebellum in normal and reeler mutant mice. Anat Embryol 168, 73–86 (1983). https://doi.org/10.1007/BF00305400
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DOI: https://doi.org/10.1007/BF00305400