Journal article

Schwann cells revert to non-myelinating phenotypes in the deafened rat cochlea

Patricia A Hurley, Jeremy M Crook, Robert K Shepherd

EUROPEAN JOURNAL OF NEUROSCIENCE | WILEY | Published : 2007

Abstract

Loss of sensory hair cells within the cochlea results in a permanent sensorineural hearing loss and initiates the gradual degeneration of spiral ganglion neurons (SGNs) - the primary afferent neurons of the cochlea. While these neurons are normally myelinated via Schwann cells, loss of myelin occurs as a precursor to neural degeneration. However, the relationship between demyelination and the status of Schwann cells in deafness is not well understood. We used a marker of peripheral myelin (myelin protein zero; P0) and a marker of Schwann cells (S100) to determine the temporal sequence of myelin and Schwann cell loss as a function of duration of deafness. Rat pups were systemically deafened f..

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