Interferon-induced senescent CD8 <sup>+</sup> T cells reduce anti-PD1 immunotherapy efficacy in early triple-negative breast cancer
Tong Fu, Xi Jin, Min He, Yi-Yu Chen, Yun‐Song Yang, Li Chen, Hu-Yun-Long Zhang, Lei Fan, Jiong Wu, Zhonghua Wang, Yiwei Chu, Ronghua Liu, Yi‐Zhou Jiang, Zhi‐Ming Shao
Abstract
Triple-negative breast cancers (TNBCs) lack predictive biomarkers to guide immunotherapy, especially during early-stage disease. To address this issue, we used single-cell RNA sequencing, bulk transcriptomics, and pathology assays on samples from 171 patients with early-stage TNBC receiving chemotherapy with or without immunotherapy. Our investigation identified an enriched subset of interferon (IFN)–induced CD8 + T cells in early TNBC samples, which predict immunotherapy nonresponsiveness. Mechanistically, IFN produced by HLA-DR + monocytes triggered cellular senescence in CD8 + T cells, which was marked by excessive NAD + consumption, reduced cytotoxicity, and immunotherapy nonresponsiveness. Nicotinamide mononucleotide treatment restored the function of IFN-induced senescent CD8 + T cells and enhanced immunotherapy efficacy in patient-derived organoid–T cell coculture and in mouse models. Overall, our study identifies IFN-induced T cell senescence as a driver of immunotherapy nonresponsiveness in early TNBC and provides a strategy to restore CD8 + T cell function for immunotherapeutic benefit.