TRIM24 facilitates antiviral immunity through mediating K63-linked TRAF3 ubiquitination

Qingchen Zhu(Shanghai Institute of Nutrition and Health), Tao Yu(Shanghai Institute of Nutrition and Health), Shucheng Gan(Shanghai Institute of Nutrition and Health), Yan Wang(Shanghai Institute of Nutrition and Health), Yifei Pei(Shanghai Institute of Nutrition and Health), Qifan Zhao(Shanghai Institute of Nutrition and Health), Siyu Pei(Shanghai Institute of Nutrition and Health), Shumeng Hao(Shanghai Institute of Nutrition and Health), Jia Yuan(Shanghai Institute of Nutrition and Health), Jing Xu(Shanghai Institute of Nutrition and Health), Fajian Hou(Center for Excellence in Molecular Cell Science), Xuefeng Wu(Shanghai Jiao Tong University), Chao Peng, Ping Wu, Jun Qin(Shanghai Institute of Nutrition and Health), Yichuan Xiao(Shanghai Institute of Nutrition and Health)
The Journal of Experimental Medicine
March 4, 2020
10.1084/jem.20192083
Cited by 66Open Access
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Abstract

Ubiquitination is an essential mechanism in the control of antiviral immunity upon virus infection. Here, we identify a series of ubiquitination-modulating enzymes that are modulated by vesicular stomatitis virus (VSV). Notably, TRIM24 is down-regulated through direct transcriptional suppression induced by VSV-activated IRF3. Reducing or ablating TRIM24 compromises type I IFN (IFN-I) induction upon RNA virus infection and thus renders mice more sensitive to VSV infection. Mechanistically, VSV infection induces abundant TRIM24 translocation to mitochondria, where TRIM24 binds with TRAF3 and directly mediates K63-linked TRAF3 ubiquitination at K429/K436. This modification of TRAF3 enables its association with MAVS and TBK1, which consequently activates downstream antiviral signaling. Together, these findings establish TRIM24 as a critical positive regulator in controlling the activation of antiviral signaling and describe a previously unknown mechanism of TRIM24 function.

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