Litcius/Paper detail

BCOR and ZC3H12A suppress a core stemness program in exhausted CD8+ T cells

Jing Xu, Zeran Jia, Xiaocui Zhao, Lixia Wang, Gang Jin, Zhuoyang Li, Na Yin, Yinqing Li, Min Peng

2025The Journal of Experimental Medicine10 citationsDOIOpen Access PDF

Abstract

In chronic viral infections, sustained CD8+ T cell response relies on TCF1+ precursor-exhausted T cells (TPEX) exhibiting stem-like properties. TPEX self-renew and respond to PD-1 blockade, underscoring their paramount importance. However, strategies for effectively augmenting TPEX remain limited. Here, we demonstrate that ZC3H12A deficiency initiates a stemness program in TPEX but also increases cell death, whereas BCOR deficiency predominantly promotes TPEX proliferation. Consequently, co-targeting of both BCOR and ZC3H12A imparts exceptional stemness and functionality to TPEX, thereby enhancing viral control. Mechanistically, BCOR and ZC3H12A collaboratively suppress a core stemness program in TPEX characterized by heightened expression of ∼216 factors. While TCF1 plays a role, this core stemness program relies on novel factors, including PDZK1IP1, IFIT3, PIM2, LTB, and POU2F2. Crucially, overexpressing POU2F2 robustly boosts TPEX and enhances antiviral immunity. Thus, a core stemness program exists in exhausted T cells, jointly repressed by BCOR and ZC3H12A, robustly controlling TPEX differentiation and providing new targets for addressing T cell exhaustion.

Topics & Concepts

BlockadeCD8Cytotoxic T cellCell biologyStem cellTranscription factorCancer researchImmunologyBiologyImmune systemReceptorGeneGeneticsIn vitroImmune Cell Function and InteractionCAR-T cell therapy researchImmunotherapy and Immune Responses