Spatial pattern of sonic hedgehog signaling through Gli genes during cerebellum development

doi:10.1242/dev.01438

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Development ePress online publication date 20 Oct 2004
doi: 10.1242/dev.01438

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Research article

Spatial pattern of sonic hedgehog signaling through Gli genes during cerebellum development

JoMichelle D. Corrales, Gina L. Rocco, Sandra Blaess, Qiuxia Guo, and Alexandra L. Joyner^*
^* Author for correspondence (e-mail: joyner{at}saturn.med.nyu.edu)

The cerebellum consists of a highly organized set of foliathat are largely generated postnatally during expansion of thegranule cell precursor (GCP) pool. Since the secreted factorsonic hedgehog (Shh) is expressed in Purkinje cells and functionsas a GCP mitogen in vitro, it is possible that Shh influencesfoliation during cerebellum development by regulating the positionand/or size of lobes. We studied how Shh and its transcriptionalmediators, the Gli proteins, regulate GCP proliferation in vivo,and tested whether they influence foliation. We demonstratethat Shh expression correlates spatially and temporally withfoliation. Expression of the Shh target gene Gli1 is also highestin the anterior medial cerebellum, but is restricted to proliferatingGCPs and Bergmann glia. By contrast, Gli2 is expressed uniformlyin all cells in the developing cerebellum except Purkinje cellsand Gli3 is broadly expressed along the anteroposterior axis.Whereas Gli mutants have a normal cerebellum, Gli2 mutants havegreatly reduced foliation at birth and a decrease in GCPs. Ina complementary study using transgenic mice, we show that overexpressingShh in the normal domain does not grossly alter the basic foliationpattern, but does lead to prolonged proliferation of GCPs andan increase in the overall size of the cerebellum. Taken together,these studies demonstrate that positive Shh signaling throughGli2 is required to generate a sufficient number of GCPs forproper lobe growth.

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