Most afferent projections to the cerebellar cortex are topographically organized and terminate in sagittally stripes. The studies proposed in this application will identify the intrinsic and extrinsic factors regulating the development of afferent topography, synapse stabilization and stripe formation in the cerebellar cortex. One series of experiments will determine if early developing, highly topographically organized olivocerebellar (IO-CB) projections establish a framework to guide later developing afferent pathways to appropriate areas of termination. The role of presynaptic impulse activity, the N-methyl-D-aspartate (NMDA) receptor and postsynaptic activity on afferent synapse stabilization and stripe formation will be examined separately. The effects of TTX blockade of impulse activity in developing IO-CB and spinocerebellar (Sp-CB) projection on synapse specification and the formation of stripes will be determined. The requirement for impulse activity for the stabilization of normally transient cerebrocerebellar (Cx-CB) projections will be examined following excitation of Cx-CB projection neurons. The role of cerebellar cortical neuronal activity on the development of stripes and synapse specification and stabilization will be evaluated. Chronic inhibition of cortical neurons will be used to determine if IO-CB and Sp-CB pathways form stripe patterns of termination and if appropriate connections are established. In other experiments chronic excitation of cerebellar cortical neurons will be used to determine if postsynaptic activation is sufficient for stabilizing functionally silent Cx-CB synapses. IN a final series of experiments the role of the NMDA receptor in the development of afferent stripes will be evaluated following chronic exposure to NMDA antagonists and agonists. Our hypothesis predict that IO-CB projections serve to guide all other afferents to appropriate areas of the cortex and that presynaptic impulse activity, the NMDA receptor and postsynaptic activity are conjointly required for cerebellar afferent synapse stabilization and the formation of stripes.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS020227-09
Application #
3400488
Study Section
Neurology B Subcommittee 2 (NEUB)
Project Start
1983-12-01
Project End
1993-11-30
Budget Start
1991-12-01
Budget End
1993-11-30
Support Year
9
Fiscal Year
1992
Total Cost
Indirect Cost
Name
Saint Louis University
Department
Type
Schools of Medicine
DUNS #
City
Saint Louis
State
MO
Country
United States
Zip Code
63103
Alisky, J M; Tolbert, D L (1997) Quantitative analysis of converging spinal and cuneate mossy fibre afferent projections to the rat cerebellar anterior lobe. Neuroscience 80:373-88
Tolbert, D L; Gutting, J C (1997) Quantitative analysis of cuneocerebellar projections in rats: differential topography in the anterior and posterior lobes. Neuroscience 80:359-71
Wolf, L W; LaRegina, M C; Tolbert, D L (1996) A behavioral study of the development of hereditary cerebellar ataxia in the shaker rat mutant. Behav Brain Res 75:67-81
Tolbert, D L; Ewald, M; Gutting, J et al. (1995) Spatial and temporal pattern of Purkinje cell degeneration in shaker mutant rats with hereditary cerebellar ataxia. J Comp Neurol 355:490-507
Tolbert, D L; Pittman, T; Alisky, J M et al. (1994) Chronic NMDA receptor blockade or muscimol inhibition of cerebellar cortical neuronal activity alters the development of spinocerebellar afferent topography. Brain Res Dev Brain Res 80:268-74
Alisky, J M; Tolbert, D L (1994) Differential labeling of converging afferent pathways using biotinylated dextran amine and cholera toxin subunit B. J Neurosci Methods 52:143-8
Tolbert, D L; Alisky, J M; Clark, B R (1993) Lower thoracic upper lumbar spinocerebellar projections in rats: a complex topography revealed in computer reconstructions of the unfolded anterior lobe. Neuroscience 55:755-74
La Regina, M C; Yates-Siilata, K; Woods, L et al. (1992) Preliminary characterization of hereditary cerebellar ataxia in rats. Lab Anim Sci 42:19-26
Alisky, J M; Swink, T D; Tolbert, D L (1992) The postnatal spatial and temporal development of corticospinal projections in cats. Exp Brain Res 88:265-76
Tolbert, D L (1989) Absence of impulse activity in cortical neurons with transient projections to the cerebellum. Brain Res Dev Brain Res 50:241-9

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