BCAT1 inhibits crotonate-related epigenetic modulation of metabolic genes in tumor-associated macrophages to counter immunosuppression
Zhang Weizhi, Liang Shuhang, Han Sitao, Zha Qingrui, Sun Linmao, Tao Shengwei, Zhang Yunguang, Chu Junhui, Chu Qi, Zhang Ning, Ma Kun, Liu Yufeng, Cui Tianming, Gu Xuetian, Cheng Cheng, Guo Xinyu, Fu
Journal:Nature Communications
IF:18.1
DOI:10.1038/s41467-026-72814-w
PMID:
Published:2026-05-11
research field:肿瘤微环境癌症免疫学免疫代谢免疫治疗分子肿瘤学表观遗传学
Abstract
The heterogeneous and immunosuppressive tumor microenvironment (TME) in hepatocellular carcinoma (HCC) contributes to poor immunotherapy responses. Tumor-associated macrophages (TAM) are central to the immunosuppressive TME, but how metabolic programs regulate TAM pro-tumorigenic functions remain incompletely understood. Here, we identify branched-chain amino acid transaminase 1 (BCAT1) as a metabolic checkpoint in TAMs constraining tumor progression. Compared with wild-type TAMs, BCAT1-deficient TAMs have increased intracellular crotonate, as well as enhanced histone H3 lysine 14 crotonylation, upregulated lipid metabolism genes and an immunosuppressive phenotype. In HCC mouse models, BCAT1-deficient TAMs aggravate tumor burden and suppress CD8 + T cell-mediated antitumor immunity, while myeloid-specific BCAT1 overexpression or adoptive transfer of BCAT1 + macrophages stimulates the antitumor immune response and improves anti-PD1 therapy responses. In summary, our data support a BCAT1-mediated regulation of crotonate-dependent epigenetic modulation of immunosuppressive TAMs in HCC, and indicate BCAT1 + macrophages as an adjuvant treatment for enhancing immune checkpoint blockade therapy.
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