Tumor microenvironmental signals reshape chromatin landscapes to limit the functional potential of exhausted T cells

染色质 脱甲基酶 生物 表观遗传学 组蛋白 细胞生物学 转录因子 二价染色质 癌症研究 染色质免疫沉淀 免疫系统 染色质重塑 免疫学 基因表达 基因 发起人 遗传学
作者
B. Rhodes Ford,Paolo Vignali,Natalie Rittenhouse,Nicole E. Scharping,Ronal M. Peralta,Konstantinos Lontos,Andrew Frisch,Greg M. Delgoffe,Amanda C. Poholek
出处
期刊:Science immunology [American Association for the Advancement of Science]
卷期号:7 (74): eabj9123-eabj9123 被引量:112
标识
DOI:10.1126/sciimmunol.abj9123
摘要

Response rates to immunotherapy in solid tumors remain low due in part to the elevated prevalence of terminally exhausted T cells, a hypofunctional differentiation state induced through persistent antigen and stress signaling. However, the mechanisms promoting progression to terminal exhaustion in the tumor remain undefined. Using the low-input chromatin immunoprecipitation sequencing method CUT&RUN, we profiled the histone modification landscape of tumor-infiltrating CD8 + T cells throughout differentiation. We found that terminally exhausted T cells had unexpected chromatin features that limit their transcriptional potential. Terminally exhausted T cells had a substantial fraction of active chromatin, including active enhancers enriched for bZIP/AP-1 transcription factor motifs that lacked correlated gene expression, which was restored by immunotherapeutic costimulatory signaling. Reduced transcriptional potential was also driven by an increase in histone bivalency, which we linked directly to hypoxia exposure. Enforced expression of the hypoxia-insensitive histone demethylase Kdm6b was sufficient to overcome hypoxia, increase function, and promote antitumor immunity. Our study reveals the specific epigenetic changes mediated by histone modifications during T cell differentiation that support exhaustion in cancer, highlighting that their altered function is driven by improper costimulatory signals and environmental factors. These data suggest that even terminally exhausted T cells may remain competent for transcription in settings of increased costimulatory signaling and reduced hypoxia.
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