Embryonic phenotype of Unc5h3 mutant mice suggests chemorepulsion during the formation of the rostral cerebellar boundary

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JOURNAL ARTICLES

Embryonic phenotype of Unc5h3 mutant mice suggests chemorepulsion during the formation of the rostral cerebellar boundary

SA Przyborski, BB Knowles and SL Ackerman
The Jackson Laboratory, Bar Harbor, Maine 04609, USA.

Mutation of the Unc5h3 (formally known as rcm) gene has important consequences on neuronal migration during cerebellar development. Unc5h3 transcripts are expressed early (embryonic day 8.5) in the hindbrain region and later in the cerebellar primordia. In Unc5h3 mutant embryos, both the development and initial migration of Purkinje cell progenitors occur as in wild-type controls. The rhombic lip, from which granule cell precursors arise, also appears to form normally in mutants. However, at E13.5, an abnormal subpopulation of granule cell and Purkinje cell precursors becomes detectable in rostral areas of the Unc5h3 mutant brain stem. These ectopic cerebellar cells increase in number and continue moving in a rostral direction throughout the remainder of embryogenesis and early stages of postnatal development invading the lateral regions of the pontine area and eventually the inferior colliculus. Cell proliferation markers demonstrate the mitotic nature of these subpial ectopic granule neurons indicating the displacement of the rostral external germinal layer in mutant animals. Our data suggest that establishment of the rostral cerebellar boundary may rely on chemorepulsive signaling events that require UNC5H3 expressed by cerebellar neurons and extracellular ligands that are functionally related to the UNC5H3-binding, guidance molecule netrin1. Although the phenotype resulting from the Unc5h3 mutation is apparently limited to the formation of the cerebellum, additional sites of Unc5h3 expression are also found during development suggesting the compensatory function of other genes.

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				K. J. Millen, J. H. Millonig, R. J. T. Wingate, J. Alder, and M. E. Hatten Neurogenetics of the Cerebellar System J Child Neurol, September 1, 1999; 14(9): 574 - 581. [Abstract] [PDF]

				E. Bloch-Gallego, F. Ezan, M. Tessier-Lavigne, and C. Sotelo Floor Plate and Netrin-1 Are Involved in the Migration and Survival of Inferior Olivary Neurons J. Neurosci., June 1, 1999; 19(11): 4407 - 4420. [Abstract] [Full Text] [PDF]

				D Engelkamp, P Rashbass, A Seawright, and V van Heyningen Role of Pax6 in development of the cerebellar system Development, January 8, 1999; 126(16): 3585 - 3596. [Abstract] [PDF]