Humoral regulation of iron metabolism by extracellular vesicles drives antibacterial response
Kuang Huijuan, Dou Geng, Cheng Linfeng, Wang Xiangdong, Xu Haokun, Liu Xuemei, Ding Feng, Yang Xiaoshan, Liu Siying, Bao Lili, Liu Huan, Liu Yao, Li Bei, Jin Yan, Liu Shiyu
Journal:Nature Metabolism
IF:20.8
DOI:10.1038/s42255-022-00723-5
PMID:36658400
Published:2023-01-19
research field:肿瘤学分子生物学中药学药理学
Abstract
Immediate restriction of iron initiated by the host is a critical process to protect against bacterial infections and has been described in the liver and spleen, but it remains unclear whether this response also entails a humoral mechanism that would enable systemic sequestering of iron upon infection. Here we show that upon bacterial invasion, host macrophages immediately release extracellular vesicles (EVs) that capture circulating iron-containing proteins. Mechanistically, in a sepsis model in female mice, Salmonella enterica subsp. enterica serovar Typhimurium induces endoplasmic reticulum stress in macrophages and activates inositol-requiring enzyme 1α signaling, triggering lysosomal dysfunction and thereby promoting the release of EVs, which bear multiple receptors required for iron uptake. By binding to circulating iron-containing proteins, these EVs prevent bacteria from iron acquisition, which inhibits their growth and ultimately protects against infection and related tissue damage. Our findings reveal a humoral mechanism that can promptly regulate systemic iron metabolism during bacterial infection.
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