Litcius/Paper detail

Cancer cell-intrinsic biosynthesis of itaconate promotes tumor immunogenicity

Zining Wang, Lei Cui, Yanxun Lin, Bitao Huo, Hongxia Zhang, C. Xie, Huanling Zhang, Yongxiang Liu, Huan Jin, Hui Guo, Mengyun Li, Xiaojuan Wang, Penghui Zhou, Peng Huang, Jinyun Liu, Xiaojun Xia

2024The EMBO Journal17 citationsDOIOpen Access PDF

Abstract

The Krebs cycle byproduct itaconate has recently emerged as an important metabolite regulating macrophage immune functions, but its role in tumor cells remains unknown. Here, we show that increased tumor-intrinsic cis-aconitate decarboxylase (ACOD1 or CAD, encoded by immune-responsive gene 1, Irg1) expression and itaconate production promote tumor immunogenicity and anti-tumor immune responses. Furthermore, we identify thimerosal, a vaccine preservative, as a specific inducer of IRG1 expression in tumor cells but not in macrophages, thereby enhancing tumor immunogenicity. Mechanistically, thimerosal induces itaconate production through a ROS-RIPK3-IRF1 signaling axis in tumor cells. Further, increased IRG1/itaconate upregulates antigen presentation-related gene expression via promoting TFEB nuclear translocation. Intratumoral injection of thimerosal induced itaconate production, activated the tumor immune microenvironment, and inhibited tumor growth in a T cell-dependent manner. Importantly, IRG1 deficiency markedly impaired tumor response to thimerosal treatment. Furthermore, itaconate induction by thimerosal potentiates the anti-tumor efficacy of adoptive T-cell therapy and anti-PD1 therapy in a mouse lymphoma model. Hence, our findings identify a new role for tumor intrinsic IRG1/itaconate in promoting tumor immunogenicity and provide a translational means to increase immunotherapy efficacy.

Topics & Concepts

BiologyImmunogenicityImmune systemCancer researchImmunotherapyThimerosalTumor microenvironmentCancerImmunologyMedicineDermatologyGeneticsImmune cells in cancerCancer Immunotherapy and BiomarkersCancer, Hypoxia, and Metabolism