Regulation of hypothalamic radial glia by Wnt signaling
University Of Utah, Salt Lake City UT
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Abstract
DESCRIPTION (provided by applicant): The specific regulatory pathways regulating adult neurogenesis and the behavior of neural stem cells are poorly understood. Radial glial stem cells in the vertebrate brain can continuously produce neurons during homeostasis and regenerate lost cells following injury. Yet the molecular mechanisms underlying neural stem cell regulation are poorly understood. Our laboratory has discovered that Wnt signaling regulates neurogenesis in the post-embryonic zebrafish hypothalamus via the transcriptional effector Lef1. In contrast the formation of radial glia in the zebrafish hypothalamus does not require Wnt signaling and ectopic Wnt activity reduces their number. This work will test the specific hypotheses that Wnt signaling functions to convert radial glia into neural progenitors, and to promote their proliferative response following injury. First, we will determine whether Wnt signaling is necessary and sufficient to drive radial glia into a neural progenitor state. Second, we will test whether Lef1 promotes neural progenitor formation through downstream targets. Third, we will determine whether Wnt signaling is required for radial glial proliferation after injry. Together, this will characterize the regulation of a novel population of neural progenitors in the vertebrate hypothalamus, and establish a new model for Wnt signaling in CNS neurogenesis.
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