After a peripheral nerve lesion, distal ends of injured axons disintegrate into small fragments that are subsequently cleared by Schwann cells and later by macrophages. Axonal debris clearing is an early step of the repair process that facilitates regeneration. We show here that Schwann cells promote distal cut axon disintegration for timely clearing.
View Article and Find Full Text PDFModeling myelination in vitro allows mechanistic study of developmental myelination and short-term myelin maintenance, but analyses possible to carry out using currently available models are usually limited because of high cell density and the lack of separation between neurons and myelinating cells. Furthermore, regeneration studies of myelinated systems after lesion require compartmentalization of neuronal cell bodies, axons, and myelinating cells. Here we describe a compartmentalized method using microfluidics that allows live-cell imaging at the single-cell level to follow short- and long-term dynamic interactions of neurons and myelinating cells and large-scale analyses, e.
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