Exosomes from mesenchymal stromal cells reduce murine colonic inflammation via a macrophage-dependent mechanism
Huashan Liu, Zhenxing Liang, Fengwei Wang, Chi Zhou, Xiaobin Zheng, Tuo Hu, Xiaowen He, Xianrui Wu, Ping Lan
Huashan Liu, Zhenxing Liang, Fengwei Wang, Chi Zhou, Xiaobin Zheng, Tuo Hu, Xiaowen He, Xianrui Wu, Ping Lan
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Research Article Stem cells Therapeutics

Exosomes from mesenchymal stromal cells reduce murine colonic inflammation via a macrophage-dependent mechanism

Abstract

Conventional treatments for inflammatory bowel disease (IBD) have multiple potential side effects. Therefore, alternative treatments are desperately needed. This work demonstrated that systemic administration of exosomes from human bone marrow–derived mesenchymal stromal cells (MSC-Exos) substantially mitigated colitis in various models of IBD. MSC-Exos treatment downregulated inflammatory responses, maintained intestinal barrier integrity, and polarized M2b macrophages but did not favor intestinal fibrosis. Mechanistically, infused MSC-Exos acted mainly on colonic macrophages, and macrophages from colitic colons acquired obvious resistance to inflammatory restimulation when prepared from mice treated with MSC-Exos versus untreated mice. The beneficial effect of MSC-Exos was blocked by macrophage depletion. Also, the induction of IL-10 production from macrophages was partially involved in the beneficial effect of MSC-Exos. MSC-Exos were enriched in proteins involved in regulating multiple biological processes associated with the anticolitic benefit of MSC-Exos. Particularly, metallothionein-2 in MSC-Exos was required for the suppression of inflammatory responses. Taken together, MSC-Exos are critical regulators of inflammatory responses and may be promising candidates for IBD treatment.

Authors

Huashan Liu, Zhenxing Liang, Fengwei Wang, Chi Zhou, Xiaobin Zheng, Tuo Hu, Xiaowen He, Xianrui Wu, Ping Lan

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Figure 5

The anticolitic benefit of MSC-Exos in DSS-colitic mice is macrophage dependent.

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The anticolitic benefit of MSC-Exos in DSS-colitic mice is macrophage de...
PKH26-labeled MSC-Exos (200 μg per mouse) were intravenously administrated to mice on day 2 during the 7-day 5% DSS administration. Mice were sacrificed on days 3, 5, and 7 for tracking analysis. (A) Upper: The frequency of PKH26+ intestinal cells dissociated from DSS-treated or untreated mice (1 million cells were detected in each colon). Numerical values denote the mean percentage of exosome-positive (PKH26+) intestinal cells. Lower: Flow cytometric profiles of F4/80 and CD11b expression in PKH26+ cells. Numerical values denote the mean percentage of PKH26+ cells expressing CD11b and F4/80. (B) The quantification of PKH26+ cells. (C) The quantification of PKH26+ cells expressing F4/80 and CD11b. n = 3–4 mice per group for AC. For DG, mice received Clod-lipos or PBS-lipos according to the schematic flowchart (see Supplemental Figure 3A), and MSC-Exos (200 μg per mouse) were infused intravenously on day 2 (arrow in D). Colitis was assessed by DAI (D) daily. On day 7, mice were sacrificed, and colon lengths (E), histopathological scores (F), and colonic MPO activity (G) were determined. n = 12–15 mice per group for DF and n = 5 for G. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, and ns indicates P > 0.05, by 2-tailed Student’s t test (B, C, E, and G) or Mann-Whitney U test (D and F).