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Activation of osmo-sensitive LRRC8 anion channels in macrophages is important for micro-crystallin joint inflammation
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Activation of osmo-sensitive LRRC8 anion channels in macrophages is important for micro-crystallin joint inflammation
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Journal Article
Activation of osmo-sensitive LRRC8 anion channels in macrophages is important for micro-crystallin joint inflammation
2024
Overview
Deposition of monosodium urate and calcium pyrophosphate (MSU and CPP) micro-crystals is responsible for painful and recurrent inflammation flares in gout and chondrocalcinosis. In these pathologies, the inflammatory reactions are due to the activation of macrophages responsible for releasing various cytokines including IL-1β. The maturation of IL-1β is mediated by the multiprotein NLRP3 inflammasome. Here, we find that activation of the NLRP3 inflammasome by crystals and concomitant production of IL-1β depend on cell volume regulation via activation of the osmo-sensitive LRRC8 anion channels. Both pharmacological inhibition and genetic silencing of LRRC8 abolish NLRP3 inflammasome activation by crystals in vitro and in mouse models of crystal-induced inflammation. Activation of LRRC8 upon MSU/CPP crystal exposure induces ATP release, P2Y receptor activation and intracellular calcium increase necessary for NLRP3 inflammasome activation and IL-1β maturation. We identify a function of the LRRC8 osmo-sensitive anion channels with pathophysiological relevance in the context of joint crystal-induced inflammation.
Formation of urate and calcium pyrophosphate micro-crystals is responsible for painful inflammatory flares in gout and chondrocalcinosis. Here the authors show that the osmo-sensitive LRRC8 anion channel is involved with macrophage inflammasome activation by crystals involving cell volume regulation and ATP release leading to P2Y receptor activation.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 13/31
/ 13/89
/ 14/10
/ 14/34
/ 38
/ 64/60
/ 9/74
/ Animals
/ Anions
/ Calcium
/ Crystals
/ Flares
/ Gout
/ Humanities and Social Sciences
/ Humans
/ IL-1β
/ Interleukin-1beta - metabolism
/ Male
/ Membrane Proteins - genetics
/ Membrane Proteins - metabolism
/ Mice
/ NLR Family, Pyrin Domain-Containing 3 Protein - genetics
/ NLR Family, Pyrin Domain-Containing 3 Protein - metabolism
/ Rhumatology and musculoskeletal system
/ Science
