Bdnf-Ntrk2 Signaling Promotes but is not Essential for Spinal Cord Myelination in Larval Zebrafish

Myelin, a specialized membrane produced by oligodendroglial cells in the central nervous system, wraps axons to enhance conduction velocity and maintain axon health. Not all axons are myelinated, and not all myelinated axons are uniformly wrapped along their lengths. Several lines of evidence indicate that neuronal activity can influence myelination, however, the cellular and molecular mechanisms that mediate communication between axons and oligodendrocytes remain poorly understood. Prior research showed that the neurotrophic growth factor Bdnf and its receptor Ntrk2 promote myelination in rodents, raising the possibility that Bdnf and Ntrk2 convey myelin-promoting signals from neurons to oligodendrocytes. We explored this possibility using a combination of gene expression analyses, gene function tests, and myelin sheath formation assays in zebrafish larvae. Altogether, our data indicate that, although not essential for myelination, Bdnf-Ntrk2 signaling contributes to the timely formation of myelin in the developing zebrafish spinal cord.