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Glial precursors clear sensory neuron corpses during development via Jedi-1, an engulfment receptor.


ABSTRACT: During the development of peripheral ganglia, 50% of the neurons that are generated undergo apoptosis. How the massive numbers of corpses are removed is unknown. We found that satellite glial cell precursors are the primary phagocytic cells for apoptotic corpse removal in developing mouse dorsal root ganglia (DRG). Confocal and electron microscopic analysis revealed that glial precursors, rather than macrophages, were responsible for clearing most of the dead DRG neurons. Moreover, we identified Jedi-1, an engulfment receptor, and MEGF10, a purported engulfment receptor, as homologs of the invertebrate engulfment receptors Draper and CED-1 expressed in the glial precursor cells. Expression of Jedi-1 or MEGF10 in fibroblasts facilitated binding to dead neurons, and knocking down either protein in glial cells or overexpressing truncated forms lacking the intracellular domain inhibited engulfment of apoptotic neurons. Together, these results suggest a cellular and molecular mechanism by which neuronal corpses are culled during DRG development.

SUBMITTER: Wu HH 

PROVIDER: S-EPMC2834222 | biostudies-literature | 2009 Dec

REPOSITORIES: biostudies-literature

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Glial precursors clear sensory neuron corpses during development via Jedi-1, an engulfment receptor.

Wu Hsiao-Huei HH   Bellmunt Elena E   Scheib Jami L JL   Venegas Victor V   Burkert Cornelia C   Reichardt Louis F LF   Zhou Zheng Z   Fariñas Isabel I   Carter Bruce D BD  

Nature neuroscience 20091115 12


During the development of peripheral ganglia, 50% of the neurons that are generated undergo apoptosis. How the massive numbers of corpses are removed is unknown. We found that satellite glial cell precursors are the primary phagocytic cells for apoptotic corpse removal in developing mouse dorsal root ganglia (DRG). Confocal and electron microscopic analysis revealed that glial precursors, rather than macrophages, were responsible for clearing most of the dead DRG neurons. Moreover, we identified  ...[more]

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