Subcutaneous white adipose tissue–derived extracellular vesicles maintain intestinal homeostasis via IgA biosynthesis in aging mice
KeKao Long, Pujie Liu, Yi Wang, Jordy Evan Sulaiman, Moinul Hoque, Gloria Hoi Yee Li, Daisy Danyue Zhao, Pui-Kei Lee, Gilman Kit-hang Siu, Annie Wing-tung Lee, Zhuohao Liu, Pui-kin So, Yin Cai, Connie Wai-hong Woo, Chi-bun Chan, Aimin Xu, Kenneth King-yip Cheng
KeKao Long, Pujie Liu, Yi Wang, Jordy Evan Sulaiman, Moinul Hoque, Gloria Hoi Yee Li, Daisy Danyue Zhao, Pui-Kei Lee, Gilman Kit-hang Siu, Annie Wing-tung Lee, Zhuohao Liu, Pui-kin So, Yin Cai, Connie Wai-hong Woo, Chi-bun Chan, Aimin Xu, Kenneth King-yip Cheng
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Research Article Aging Endocrinology Immunology

Subcutaneous white adipose tissue–derived extracellular vesicles maintain intestinal homeostasis via IgA biosynthesis in aging mice

Abstract

Intestinal function and white adipose tissue (WAT) function deteriorate with age, but whether and how their deterioration is intertwined remains unknown. Increased gut permeability, microbiota dysbiosis, and aberrant immune microenvironment are the hallmarks of intestinal dysfunctions in aging. Here, we show that subcutaneous WAT dysfunction triggered aging-like intestinal dysfunctions in mouse models. Removal of inguinal subcutaneous WAT (iWAT) increased intestinal permeability and inflammation and altered gut microbiota composition as well as susceptibility to pathogen infection in mouse models. These intestinal dysfunctions were accompanied by a reduction of immunoglobulin A–producing (IgA-producing) cells and IgA biosynthesis in the lamina propria of the small intestine. Retinoic acid (RA) is a key cargo within iWAT-derived extracellular vesicles (iWAT-EVs), which, at least in part, elicits IgA class-switching and production in the small intestine and maintains microbiota homeostasis. RA content in iWAT-EVs and intestinal IgA biosynthesis are reduced during aging in mice. Replenishment of “young” iWAT-EVs rejuvenates intestinal IgA production machinery and shifts microbiota composition of aged mice to a “youth” status, which alleviates leaky gut via RA. In conclusion, our findings suggest that iWAT-EVs with RA orchestrate IgA-mediated gut microbiota homeostasis by acting on intestinal B cells, thereby maintaining intestinal health during aging.

Authors

KeKao Long, Pujie Liu, Yi Wang, Jordy Evan Sulaiman, Moinul Hoque, Gloria Hoi Yee Li, Daisy Danyue Zhao, Pui-Kei Lee, Gilman Kit-hang Siu, Annie Wing-tung Lee, Zhuohao Liu, Pui-kin So, Yin Cai, Connie Wai-hong Woo, Chi-bun Chan, Aimin Xu, Kenneth King-yip Cheng

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Figure 6

Reversal of dysregulated intestinal functions in mice with iWAT removal by treatment with iWAT-EVs.

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Reversal of dysregulated intestinal functions in mice with iWAT removal ...
Twelve-week-old male C57BL/6J mice underwent surgical inguinal fat removal (iFR) or sham operation. Four days after surgery, mice were treated with iWAT-derived extracellular vesicles (iFR-EVs) or EVs depleted of RA (iFR-EVsΔRA) every other day for a total of 5 treatments. (A) Fecal IgA levels at day 1, day 5, and day 13 after EV treatments (n = 6). Significant P < 0.05: *iSham-Veh versus iFR-Veh; #iSham-Veh versus iFR-EVs; iSham-Veh versus iFR-EVsΔRA; §iFR-Veh versus iFR-EVs; iFR-EVs versus iFR-EVsΔRA. (B) Percentage of IgA-coated bacteria. (C) The frequencies of IgA+ PCs and IgA+ B cells. All frequencies of cells were gated from CD45+ cells. iSham-Veh (n = 6), iFR-Veh (n = 6), iFR-EVs (n = 6), and iFR-EVsΔRA (n = 5). (D) In vivo gut permeability test (n = 4). (E) Circulating LPS levels (n = 5). (F) qPCR analysis of SFB and Akkermansia. The targeted microbiota was normalized to the abundance of all bacteria. Data are presented as fold change relative to Sham-Veh (n = 5). (G and H) H&E staining analysis (G) and immunofluorescent staining of ZO-1 (H), with the right panels showing quantitative analysis. Scale bars: 100 μm. (n = 4.) Representative images are shown. Data are presented as the mean ± SEM. Statistical significance was determined using 1-way ANOVA with Tukey’s multiple-comparison test.