Citation

4945 total record number 317 records this year

TMED4 facilitates Treg suppressive function via ROS homeostasis in tumor and autoimmune mouse models

Jiang, Z;Wang, H;Wang, X;Duo, H;Tao, Y;Li, J;Li, X;Liu, J;Ni, J;Wu, EJ;Xiang, H;Guan, C;Wang, X;Zhang, K;Zhang, P;Hou, Z;Liu, Y;Wang, Z;Su, B;Li, B;Hao, Y;Li, B;Wu, X;

Endoplasmic reticulum stress (ERS) plays crucial roles in maintaining regulatory T cells (Treg) stability and function, yet the underlying mechanism remains largely unexplored. Here we demonstrate that ERS-related protein transmembrane p24 trafficking protein 4 (TMED4) Treg-specific knockout (Tmed4ΔTreg) mice contain more Treg cells with impaired Foxp3 stability, Treg signature and suppressive activity, which leads to T cell hyperactivation, exacerbated inflammatory phenotype and boosted anti-tumor immunity in mice. Mechanistically, loss of Tmed4 causes defects in ERS and nuclear factor erythroid 2–related factor 2 (NRF2)-related antioxidant response, which results in excessive reactive oxygen species (ROS) that reduces Foxp3 stability and suppressive function of Treg cells in an IRE1α-XBP1 axis-dependent manner. The abnormalities can be effectively rescued by ROS scavenger, NRF2 inducer or forcible expression of IRE1α. Moreover, TMED4 suppresses IRE1α proteosome degradation via the ER-associated degradation (ERAD) system including BIP. Our study reveals that TMED4 maintains Treg cell stability and suppressive function through IRE1α-dependent ROS and the NRF2-related antioxidant response.