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Genetic Mechanisms of Myelination in Zebrafish

$352,616R01FY2014NSNIH

Stanford University, Stanford CA

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Abstract

DESCRIPTION (provided by applicant): In peripheral nerves, Schwann cells form myelin, which greatly accelerates axonal conduction. Myelination defects cause the symptoms of Charcot-Marie-Tooth disease and other peripheral neuropathies, but the mechanisms that regulate the formation of myelin remain unclear. Investigating the pathways that regulate Schwann cell myelination will lead to important advances in the understanding of peripheral nerve development and define mechanisms that can enhance remyelination after injury and in disease. The long-term goal of this project is to define the pathways that govern the formation of myelin in peripheral nerves. In the current funding period, we discovered that the orphan adhesion G protein coupled receptor (aGPCR) Gpr126 is essential for Schwann cells to initiate myelination. Like most adhesion GPCRs, the ligand that activates Gpr126 remains unknown. We have preliminary evidence that type IV collagen in the Schwann cell extracellular matrix binds Gpr126 and activates cAMP production in cultured cells expressing Gpr126. We also have preliminary evidence that purified type IV collagen stimulates cAMP production in purified rodent Schwann cells. We propose to test the hypothesis that type IV collagen acts as an endogenous activating ligand for Gpr126. Our specific aims are (1) to analyze the action of type IV collagen on rodent Schwann cells, and determine if the response to collagen requires Gpr126; (2) to analyze the function of type IV collagen genes in Schwann cell myelination in vivo; and (3) to analyze the functional effects of a variant in Gpr126 that is linked to a severe neurological deficit in human. These experiments will define the signals that activate Gpr126 signaling and myelination, lead to new insights into the role of the extracellular matrix in regulating myelination, and test the function of a Gpr126 variant linked to severe neurological disease in human.

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