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ATP Mediates Rapid Microglial Response to Local Brain Injury in Vivo

Overview
Journal Nat Neurosci
Date 2005 May 17
PMID 15895084
Citations 1844
Authors
Dimitrios Davalos
Jaime Grutzendler
Guang Yang
Jiyun V Kim
Yi Zuo
Steffen Jung
Dan R Littman
Michael L Dustin
Wen-Biao Gan
Affiliations
Soon will be listed here.
Abstract

Parenchymal microglia are the principal immune cells of the brain. Time-lapse two-photon imaging of GFP-labeled microglia demonstrates that the fine termini of microglial processes are highly dynamic in the intact mouse cortex. Upon traumatic brain injury, microglial processes rapidly and autonomously converge on the site of injury without cell body movement, establishing a potential barrier between the healthy and injured tissue. This rapid chemotactic response can be mimicked by local injection of ATP and can be inhibited by the ATP-hydrolyzing enzyme apyrase or by blockers of G protein-coupled purinergic receptors and connexin channels, which are highly expressed in astrocytes. The baseline motility of microglial processes is also reduced significantly in the presence of apyrase and connexin channel inhibitors. Thus, extracellular ATP regulates microglial branch dynamics in the intact brain, and its release from the damaged tissue and surrounding astrocytes mediates a rapid microglial response towards injury.

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