Obesity-induced gut microbial metabolite promotes liver cancer through senescence secretome

肠道菌群 癌症 生物 脂肪性肝炎 肝癌 肝肠循环 致癌物 癌症研究 代谢物 肝细胞癌 免疫学 医学 肥胖 内科学 脂肪肝 内分泌学 胆汁酸 遗传学 疾病
作者
Shin Yoshimoto,Tze Mun Loo,Koji Atarashi,Hiroaki Kanda,Seidai Sato,Seiichi Oyadomari,Yoichiro Iwakura,Kenshiro Oshima,Hidetoshi Morita,Masahira Hattori,Kenya Honda,Yuichi Ishikawa,Eiji Hara,Naoko Ohtani
出处
期刊:Nature [Nature Portfolio]
卷期号:499 (7456): 97-101 被引量:2185
标识
DOI:10.1038/nature12347
摘要

Obesity has become more prevalent in most developed countries over the past few decades, and is increasingly recognized as a major risk factor for several common types of cancer. As the worldwide obesity epidemic has shown no signs of abating, better understanding of the mechanisms underlying obesity-associated cancer is urgently needed. Although several events were proposed to be involved in obesity-associated cancer, the exact molecular mechanisms that integrate these events have remained largely unclear. Here we show that senescence-associated secretory phenotype (SASP) has crucial roles in promoting obesity-associated hepatocellular carcinoma (HCC) development in mice. Dietary or genetic obesity induces alterations of gut microbiota, thereby increasing the levels of deoxycholic acid (DCA), a gut bacterial metabolite known to cause DNA damage. The enterohepatic circulation of DCA provokes SASP phenotype in hepatic stellate cells (HSCs), which in turn secretes various inflammatory and tumour-promoting factors in the liver, thus facilitating HCC development in mice after exposure to chemical carcinogen. Notably, blocking DCA production or reducing gut bacteria efficiently prevents HCC development in obese mice. Similar results were also observed in mice lacking an SASP inducer or depleted of senescent HSCs, indicating that the DCA-SASP axis in HSCs has key roles in obesity-associated HCC development. Moreover, signs of SASP were also observed in the HSCs in the area of HCC arising in patients with non-alcoholic steatohepatitis, indicating that a similar pathway may contribute to at least certain aspects of obesity-associated HCC development in humans as well. These findings provide valuable new insights into the development of obesity-associated cancer and open up new possibilities for its control.
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