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The Collaborative Roles of YAP and Sonic Hedgehog in the Developing Spinal Cord

$54,194F32FY2015NSNIH

Oregon Health & Science University, Portland OR

Investigators

Abstract

DESCRIPTION (provided by applicant): Complex developmental processes that define organ morphology and cellular differentiation appear to be governed by only several signal transduction pathways, suggesting the likelihood of extensive interactions among those pathways. However, the mechanisms that coordinate the activity of different signaling cascades involved in this process remain ill defined. In this proposal, I wish to tackle this important issu by focusing on the interplay between two prominent signals that control development; the transcription coactivator Yes- associated protein (YAP), the prime target of the Hippo kinase cascade, and Sonic hedgehog (Shh) signaling. The main goals of this proposal are to 1) dissect the function of YAP in spinal cord development, and 2) define how the Shh and Hippo signaling pathways act in concert to control development in the vertebrate spinal cord. The overall hypothesis of this proposal is that YAP serves as a novel downstream effector of Shh during the control of NPC proliferation and specification of ventral cell fates in the CNS. Specifically, I postulate that the YAP-dependent signaling communicates with the Shh signaling pathway at multiple levels, providing an effective means of coordinating these two transduction cascades during neural development. I will test this hypothesis using an ensemble of molecular methods, chick embryos and mutant mice. The specific aims of this proposal are as follows: 1) to determine the role of YAP in cell-type specification during neural tube development and 2) to define how the Shh and Hippo signaling pathways act in concert to control development in the vertebrate spinal cord. Besides defining the basic mechanisms by which YAP and Shh signaling coordinate key aspects of normal CNS development, this study should also uncover important principles applicable to other signaling networks that regulate organogenesis.

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