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Determining the Role of Dendrite Inhibition in Oligodendrocyte Myelination

$9,482F31FY2015NSNIH

University Of California, San Francisco, San Francisco CA

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Abstract

DESCRIPTION (provided by applicant): Myelination of correct axons at the right time is critical for overall neural function. During development, all central nervous system (CNS) axons are unmyelinated until oligodendrocytes (OLs) differentiate from their precursor cells (OPCs) and begin to deposit concentric wraps of insulating membrane around most axons to facilitate saltatory conduction of action potentials. Few molecular regulators of OL axon selection are known, but myelination of only appropriate axons may be accomplished by (1) attraction to positive axonal cues, (2) repulsion from inappropriate fibers, or a combination of induction and inhibition. Unexpectedly, our preliminary data suggest a third possibility; that OLs sense and use axon diameter in myelination independent of molecular signaling. OLs cocultured with axon-sized polystyrene nanofibers select only fibers above a threshold diameter to myelinate. Interestingly, the dendrite is geometrically similar to the axon, yet is never myelinated. Thus, we hypothesize that dendrites inhibit their myelination by oligodendrocytes in a contact- dependent manner. To test our hypothesis I will use a novel reductionist coculture system to (1) determine whether dendrites inhibit OL myelination, as well as (2) identify molecular signals localized to dendrite membranes that modulate OL myelination. It is critical to determine how oligodendrocytes interact with, and avoid dendrites to understand normal myelination kinetics and gain insight into dismyelinating diseases.

View original record on NIH RePORTER →