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Organization of spinocerebellar projection map in three types of agranular cerebellum: Purkinje cells vs. granule cells as organizer element

Journal Article · · J. Comp. Neurol.; (United States)
; ;
The organization of the spinocerebellar projection was analysed by the anterograde axonal WGA-HRP (horseradish peroxidase-wheat germ agglutinin conjugate) tracing method in three different types of agranular cerebellar cortex either induced experimentally by X-irradiation or occurring spontaneously in weaver (wv/wv) and staggerer (sg/sg) mutant mice. The results of this study show that in the X-irradiated rat and weaver mouse, in both of which the granule cells are directly affected and die early in development, the spinal axons reproduce, with few differences, the normal spinocerebellar pattern. Conversely, in staggerer mouse, in which the Purkinje cells are intrinsically affected and granule neurons do not seem to be primarily perturbed by the staggerer gene action, the spinocerebellar organization is severely modified. These findings appear somewhat paradoxical because if granule cells, the synaptic targets of mossy spinocerebellar fibers, were necessary for the organization of spinocerebellar projection, the staggerer cerebellum would exhibit a much more normal projectional map than the weaver and the X-irradiated cerebella. It is, therefore, obvious that granule cells, and even specific synaptogenesis, are not essential for the establishment of the normal spinocerebellar topography. On the other hand, the fact that the Purkinje cells are primarily affected in the unique agranular cortex in which the spinocerebellar organization is severely modified suggests that these neurons could be the main element in the organization of the spinocerebellar projection map. This hypothesis is discussed in correlation with already-reported findings on the zonation of the cerebellar cortex by biochemically different clusters of Purkinje cells.
Research Organization:
Hopital de la Salpetriere, Paris (France)
OSTI ID:
6350574
Journal Information:
J. Comp. Neurol.; (United States), Journal Name: J. Comp. Neurol.; (United States) Vol. 273:1; ISSN JCNEA
Country of Publication:
United States
Language:
English

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Related Subjects

560152* -- Radiation Effects on Animals-- Animals
63 RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT.
ANIMAL CELLS
ANIMALS
BIOLOGICAL EFFECTS
BIOLOGICAL RADIATION EFFECTS
BIOLOGICAL VARIABILITY
BODY
BRAIN
CENTRAL NERVOUS SYSTEM
CEREBELLUM
ELECTROMAGNETIC RADIATION
ENZYMES
GENETIC VARIABILITY
IONIZING RADIATIONS
MAMMALS
MEDICINE
MICE
NERVE CELLS
NERVOUS SYSTEM
NEUROLOGY
ORGANS
OXIDOREDUCTASES
PEROXIDASES
RADIATION EFFECTS
RADIATIONS
RATS
RODENTS
SOMATIC CELLS
SPINAL CORD
VERTEBRATES
X RADIATION