Early-Life Gut Microbiota Governs Susceptibility to Colitis Via Microbial-Derived Ether Lipids

Overview

Journal Research (Wash D C)

Specialty Biology

Date 2023 Apr 11

PMID 37040489

Authors

Yanjun Liu

Chunhua Jiao

Tao Zhang

Xue Li

Panpan Li

Meishan Lu

Zhan Ye

Yanpeng Du

Runfeng Du

Wenlong Zhang

Jie Xu

Zhaojun Zheng

Yongjiang Xu

Changhu Xue

Yi Zhang

Yuanfa Liu

Affiliations

Soon will be listed here.

Abstract

Localized intestine inflammation could induce short-term increases in colonic oxygenation and leads to increases in the aerobic bacteria population and reduction in the anaerobic bacteria population by changing the intestinal environment. However, the mechanisms involved and the associated functions of intestinal anaerobes in gut health still remain unclear. Here, we found that early-life depletion of gut microbiota exacerbated later colitis, while mid-life microbiota depletion showed partially reduced colitis. Notably, we observed that early-life gut microbiota depletion confers susceptibility to ferroptosis in colitis. In contrast, restitution of early-life microbiota conferred protection against colitis and inhibited ferroptosis triggered by gut microbiota dysbiosis. Similarly, colonization with anaerobic microbiota from young mice suppressed colitis. These results may attribute to high abundance of plasmalogen-positive (plasmalogen synthase [PlsA/R]-positive) anaerobes and plasmalogens (one of the common ether lipids) in young mice but reduced abundance in the development of inflammatory bowel disease. Early-life anaerobic bacteria elimination also resulted in the aggravation of colitis, while this aggravation phenotype was reverted by plasmalogen administration. Interestingly, plasmalogens inhibited ferroptosis triggered by microbiota dysbiosis. We further find that the alkenyl-ether group of plasmalogens was critical to colitis prevention and ferroptosis inhibition. These data point to one of the mechanisms by which the gut microbiota controls susceptibility to colitis and ferroptosis early in life via microbial-derived ether lipids.

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