Author
Listed:
- Yi-Yu Wang
(Sun Yat-sen University)
- Jin-Fei Lin
(Sun Yat-sen University
Sun Yat-Sen University Cancer Center)
- Wen-Wei Wu
(Sun Yat-sen University)
- Zhe Fu
(Sun Yat-sen University)
- Fen Cao
(Sun Yat-sen University)
- Yan-Xing Chen
(Sun Yat-sen University)
- Hai-Yu Mo
(Sun Yat-sen University)
- Hui Sheng
(Sun Yat-sen University)
- Ze-Xian Liu
(Sun Yat-sen University)
- Zhao-Lei Zeng
(Sun Yat-sen University)
- Xin-Yuan Guan
(The University of Hong Kong-Shenzhen Hospital)
- Huai-Qiang Ju
(Sun Yat-sen University
Chinese Academy of Medical Sciences)
- Kun Liao
(Sun Yat-sen University)
- Rui-Hua Xu
(Sun Yat-sen University
Chinese Academy of Medical Sciences)
Abstract
Despite advances in cancer immunotherapy, colorectal cancer patients exhibit limited therapeutic responses. Therefore, the exploration of strategies combining immunotherapy with adjuvant approaches to enhance adaptive immune responses is in demand. Here, we perform a customized in vivo CRISPR-Cas9 screen to target genes encoding membrane and secreted proteins in CRC mouse models with different immune characteristics. We observe that loss of membrane-bound transcription factor site-1 protease (MBTPS1) in tumor cells enhances antitumor immunity and potentiates anti-PD-1 therapy. Mechanistic studies reveal that tumor cell-intrinsic MBTPS1 competes with USP13 for binding to STAT1, thereby disrupting the USP13-dependent deubiquitination-mediated STAT1 stabilization. The upregulated STAT1-transcribed chemokines including CXCL9, CXCL10, and CXCL11, promote CXCR3+CD8+ T cell infiltration. Notably, the regulatory role of MBTPS1 in antitumor immunity operates independently of its classic function in cleaving membrane-bound transcription factors. Collectively, our results provide a theoretical basis for MBTPS1 as a potential immunotherapy target.
Suggested Citation
Yi-Yu Wang & Jin-Fei Lin & Wen-Wei Wu & Zhe Fu & Fen Cao & Yan-Xing Chen & Hai-Yu Mo & Hui Sheng & Ze-Xian Liu & Zhao-Lei Zeng & Xin-Yuan Guan & Huai-Qiang Ju & Kun Liao & Rui-Hua Xu, 2025.
"Inhibition of MBTPS1 enhances antitumor immunity and potentiates anti-PD-1 immunotherapy,"
Nature Communications, Nature, vol. 16(1), pages 1-21, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59193-4
DOI: 10.1038/s41467-025-59193-4
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