Litcius/Paper detail

TRIM28 promotes the escape of gastric cancer cells from immune surveillance by increasing PD-L1 abundance

Xiaoxiao Ma, Shuqin Jia, Gangjian Wang, Min Liang, Ting Guo, Hong Du, Sisi Li, Xiaomei Li, Longtao Huangfu, Jianping Guo, Xiaofang Xing, Jiafu Ji

2023Signal Transduction and Targeted Therapy85 citationsDOIOpen Access PDF

Abstract

Immune checkpoint blockade (ICB) offers a new opportunity for treatment for gastric cancer (G.C.). Understanding the upstream regulation of immune checkpoints is crucial to further improve the efficacy of ICB therapy. Herein, using the CRISPR-Cas9-based genome-wide screening, we identified TRIM28 as one of the most significant regulators of PD-L1, a checkpoint protein, in G.C. cells. Mechanistically, TRIM28 directly binds to and stabilizes PD-L1 by inhibiting PD-L1 ubiquitination and promoting PD-L1 SUMOylation. Furthermore, TRIM28 facilitates K63 polyubiquitination of TBK1, activating TBK1-IRF1 and TBK1-mTOR pathways, resulting in enhanced PD-L1 transcription. It was found that TRIM28 was positively correlated with PD-L1 in G.C. cells. Moreover, high TRIM28 expression suggests poor survival in a cohort of 466 patients with G.C., and this observation is consistent while analyzing data from publicly available databases. Ectopic TRIM28 expression facilitated tumor growth, increased PD-L1 expression, and suppressed T cell activation in mice. Administration of the PD-L1 or TBK1 inhibitor significantly alleviated the TRIM28-induced tumor progression. Furthermore, combining the TBK1 inhibitor with CTLA4 immune checkpoint blockade has synergistic effects on G.C., and provides a novel strategy for G.C. therapy.

Topics & Concepts

Immune checkpointBlockadeCancer researchUbiquitinSUMO proteinPD-L1Immune systemTranscription factorCancerEctopic expressionCell cycle checkpointBiologyChemistryImmunotherapyCell cycleImmunologyCell cultureBiochemistryReceptorGeneticsGeneCancer Immunotherapy and BiomarkersCancer Mechanisms and TherapyImmune Cell Function and Interaction