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. 2025 Aug 4;222(8):e20241133.
doi: 10.1084/jem.20241133. Epub 2025 May 6.

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

Jing Xu #  1   2   3 Zeran Jia #  3   4 Xiaocui Zhao #  1   2   3 Lixia Wang  1   2   3 Gang Jin  1   2   3 Zhuoyang Li  1   2   3 Na Yin  1   2   3 Yinqing Li  3   4 Min Peng  1   2   3
Affiliations

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

Jing Xu et al. J Exp Med. .

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.

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Conflict of interest statement

Disclosures: M. Peng reported a patent application has been filed by Tsinghua University based on findings described in this study pending. No other disclosures were reported.

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