TRAF2, an Innate Immune Sensor, Reciprocally Regulates Mitophagy and Inflammation to Maintain Cardiac Myocyte Homeostasis

TRAF2是一种先天免疫传感器,它通过相互调节线粒体自噬和炎症来维持心肌细胞稳态。

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作者:Xiucui Ma ,David R Rawnsley ,Attila Kovacs ,Moydul Islam ,John T Murphy ,Chen Zhao ,Minu Kumari ,Layla Foroughi ,Haiyan Liu ,Kevin Qi ,Aaradhya Diwan ,Krzysztof Hyrc ,Sarah Evans ,Takashi Satoh ,Brent A French ,Kenneth B Margulies ,Ali Javaheri ,Babak Razani ,Douglas L Mann ,Kartik Mani ,Abhinav Diwan
期刊:Jacc-Basic To Translational Science影响因子:8.400
时间:2021起止号:2021 Dec 17;7(3):223-243.
doi:10.1016/j.jacbts.2021.12.002方法学: WB
研究方向: 信号转导、细胞生物学细胞类型: 其它细胞
信号通路: Autophagy、CII

Abstract

Mitochondria are essential for cardiac myocyte function, but damaged mitochondria trigger cardiac myocyte death. Although mitophagy, a lysosomal degradative pathway to remove damaged mitochondria, is robustly active in cardiac myocytes in the unstressed heart, its mechanisms and physiological role remain poorly defined. We discovered a critical role for TRAF2, an innate immunity effector protein with E3 ubiquitin ligase activity, in facilitating physiological cardiac myocyte mitophagy in the adult heart, to prevent inflammation and cell death, and maintain myocardial homeostasis.

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