微生物群衍生的胆汁酸拮抗宿主雄激素受体并驱动抗肿瘤免疫。

Microbiota-derived bile acids antagonize the host androgen receptor and drive anti-tumor immunity.

作者信息

Jin Wen-Bing, Xiao Leyi, Jeong Mingeum, Han Seong-Ji, Zhang Wen, Yano Hiroshi, Shi Huiqing, Arifuzzaman Mohammad, Lyu Mengze, Wang Daoming, Tang Yuelin Angelina, Qiao Shanshan, Yang Xiaoyu, Yang He S, Fu Jingyuan, Sonnenberg Gregory F, Collins Nicholas, Artis David, Guo Chun-Jun

机构信息

Jill Roberts Institute for Research in Inflammatory Bowel Disease, Weill Cornell Medicine, Cornell University, New York, NY, USA; Friedman Center for Nutrition and Inflammation, Weill Cornell Medicine, Cornell University, New York, NY, USA; Gastroenterology and Hepatology Division, Department of Medicine, Weill Cornell Medicine, Cornell University, New York, NY, USA; Department of Microbiology and Immunology, Weill Cornell Medicine, Cornell University, New York, NY, USA; Immunology and Microbial Pathogenesis Program, Weill Cornell Medicine, Cornell University, New York, NY, USA; State Key Laboratory of Cellular Stress Biology, School of Life Sciences, Faculty of Medicine and Life Sciences, Xiamen University, Xiamen, China.

出版信息

Cell. 2025 May 1;188(9):2336-2353.e38. doi: 10.1016/j.cell.2025.02.029. Epub 2025 Apr 15.

DOI:10.1016/j.cell.2025.02.029

PMID:40239649

Abstract

Microbiota-derived bile acids (BAs) are associated with host biology/disease, yet their causal effects remain largely undefined. Herein, we speculate that characterizing previously undefined microbiota-derived BAs would uncover previously unknown BA-sensing receptors and their biological functions. We integrated BA metabolomics and microbial genetics to functionally profile >200 putative microbiota BA metabolic genes. We identified 56 less-characterized BAs, many of which are detected in humans/mammals. Notably, a subset of these BAs are potent antagonists of the human androgen receptor (hAR). They inhibit AR-related gene expression and are human-relevant. As a proof-of-principle, we demonstrate that one of these BAs suppresses tumor progression and potentiates the efficacy of anti-PD-1 treatment in an AR-dependent manner. Our findings show that an approach combining bioinformatics, BA metabolomics, and microbial genetics can expand our knowledge of the microbiota metabolic potential and reveal an unexpected microbiota BA-AR interaction and its role in regulating host biology.

摘要

微生物群衍生的胆汁酸（BAs）与宿主生物学/疾病相关，但其因果效应在很大程度上仍不明确。在此，我们推测，对先前未定义的微生物群衍生的BAs进行表征将揭示先前未知的BA传感受体及其生物学功能。我们整合了BA代谢组学和微生物遗传学，对200多个假定的微生物群BA代谢基因进行功能分析。我们鉴定出56种研究较少的BAs，其中许多在人类/哺乳动物中被检测到。值得注意的是，这些BAs中的一部分是人类雄激素受体（hAR）的有效拮抗剂。它们抑制AR相关基因的表达，且与人类相关。作为原理验证，我们证明这些BAs中的一种以AR依赖的方式抑制肿瘤进展并增强抗PD-1治疗的疗效。我们的研究结果表明，结合生物信息学、BA代谢组学和微生物遗传学的方法可以扩展我们对微生物群代谢潜力的认识，并揭示意想不到的微生物群BA-AR相互作用及其在调节宿主生物学中的作用。

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微生物群衍生的胆汁酸拮抗宿主雄激素受体并驱动抗肿瘤免疫。

Microbiota-derived bile acids antagonize the host androgen receptor and drive anti-tumor immunity.

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