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Literature DB >> 31189102

Injured Axons Instruct Schwann Cells to Build Constricting Actin Spheres to Accelerate Axonal Disintegration.

Adrien Vaquié¹, Alizée Sauvain¹, Mert Duman², Gianluigi Nocera², Boris Egger³, Felix Meyenhofer⁴, Laurent Falquet⁵, Luca Bartesaghi⁶, Roman Chrast⁶, Christophe Maurice Lamy⁷, Seokyoung Bang⁸, Seung-Ryeol Lee⁸, Noo Li Jeon⁸, Sophie Ruff¹, Claire Jacob⁹.

Abstract

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. By combining cell-based and in vivo models of nerve lesion with mouse genetics, we show that this mechanism is induced by distal cut axons, which signal to Schwann cells through PlGF mediating the activation and upregulation of VEGFR1 in Schwann cells. In turn, VEGFR1 activates Pak1, leading to the formation of constricting actomyosin spheres along unfragmented distal cut axons to mediate their disintegration. Interestingly, oligodendrocytes can acquire a similar behavior as Schwann cells by enforced expression of VEGFR1. These results thus identify controllable molecular cues of a neuron-glia crosstalk essential for timely clearing of damaged axons.

Entities: Disease Gene Species

Keywords: Pak1; PlGF; Schwann cells; VEGFR1; axonal disintegration; axonal injury; constricting actomyosin spheres; myelinated models; oligodendrocytes

Mesh：

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Year: 2019 PMID： 31189102 DOI： 10.1016/j.celrep.2019.05.060

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

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