安非雷古林
肌成纤维细胞
骨髓
金黄色葡萄球菌
骨髓炎
脂肪生成
癌症研究
化学
免疫学
间质细胞
生物
表型
细胞生物学
谱系(遗传)
葡萄球菌感染
间充质干细胞
过渡(遗传学)
微生物学
细胞分化
抗生素
口腔1
炎症
基质细胞蛋白
脓肿
信号转导
作者
Bingsheng Yang,Jianwen Su,Jichang Wu,Shilong Wang,Jin Hu,Mankai Yang,Yihuang Lin,Mingchao Jin,Xiaochun Bai,Bin Yu,Xianrong Zhang
标识
DOI:10.1038/s41467-025-63551-7
摘要
The formation of Staphylococcus aureus (S. aureus) abscesses is a well-established determinant of persistent skeletal infections, yet the mechanisms underlying bacterial persistence remain elusive. Here, we demonstrate that bone marrow adiponectin-positive (Adipoq+) precursors are mobilized to surround S. aureus abscesses and undergo myofibroblast differentiation. This phenotypic transition induces vascular constriction, thereby impairing local perfusion and impeding effective bacterial clearance. Mechanistically, macrophage-derived amphiregulin (AREG) activates EGFR signaling on Adipoq+ cells, triggering the mTOR/YAP pathway to drive their myofibroblast transition. Importantly, genetic ablation of Adipoq+ cells, cell-specific deletion of the AREG/EGFR axis, or pharmacological inhibition of EGFR/mTOR signaling effectively alleviates fibrosis, restores vascular perfusion and antibiotic delivery, and promotes bacterial eradication from abscesses. Our findings implicate a macrophage-Adipoq+ cell regulatory axis that sustains S. aureus persistence in osteomyelitis and identify therapeutic targeting of this axis as a strategy to enhance antibiotic efficacy against S. aureus skeletal infections. Not all infections induce abscess formation, and tissue abscess typically result from pyrogenic bacterial infections. Here the authors use mouse models to assess bone infection with S. aureus and show that macrophage-derived amphiregulin promotes preadipocyte-to-myofibroblast transition via EGFR/mTOR signalling in peri-abscess microenvironments.
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