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Accumulation of microbial DNAs promotes to islet inflammation and β cell abnormalities in obesity in mice.


ABSTRACT: Various microbial products leaked from gut lumen exacerbate tissue inflammation and metabolic disorders in obesity. Vsig4+ macrophages are key players preventing infiltration of bacteria and their products into host tissues. However, roles of islet Vsig4+ macrophages in the communication between microbiota and β cells in pathogenesis of obesity-associated islet abnormalities are unknown. Here, we find that bacterial DNAs are enriched in β cells of individuals with obesity. Intestinal microbial DNA-containing extracellular vesicles (mEVs) readily pass through obese gut barrier and deliver microbial DNAs into β cells, resulting in elevated inflammation and impaired insulin secretion by triggering cGAS/STING activation. Vsig4+ macrophages prevent mEV infiltration into β cells through a C3-dependent opsonization, whereas loss of Vsig4 leads to microbial DNA enrichment in β cells after mEV treatment. Removal of microbial DNAs blunts mEV effects. Loss of Vsig4+ macrophages leads to microbial DNA accumulation in β cells and subsequently obesity-associated islet abnormalities.

SUBMITTER: Gao H 

PROVIDER: S-EPMC8799656 | biostudies-literature | 2022 Jan

REPOSITORIES: biostudies-literature

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Accumulation of microbial DNAs promotes to islet inflammation and β cell abnormalities in obesity in mice.

Gao Hong H   Luo Zhenlong Z   Ji Yudong Y   Tang Kechun K   Jin Zhongmou Z   Ly Crystal C   Sears Dorothy D DD   Mahata Sushil S   Ying Wei W  

Nature communications 20220128 1


Various microbial products leaked from gut lumen exacerbate tissue inflammation and metabolic disorders in obesity. Vsig4+ macrophages are key players preventing infiltration of bacteria and their products into host tissues. However, roles of islet Vsig4+ macrophages in the communication between microbiota and β cells in pathogenesis of obesity-associated islet abnormalities are unknown. Here, we find that bacterial DNAs are enriched in β cells of individuals with obesity. Intestinal microbial D  ...[more]

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