Endometritis poses higher health risks to women. Clinical practice has found that gastrointestinal dysfunction is more likely to lead to the occurrence of endometritis. However, the mechanism is unclear. This study explored the influence and mechanism of DSS-induced intestinal inflammation on endometritis. Our findings demonstrate that DSS-induced intestinal inflammation can worsen LPS-induced endometritis in mice, and this effect is dependent on the gut microbiota, as depleting the gut microbiota eliminates this protective effect. Similarly, FMT from DSS-treated mice to recipient mice exacerbates LPS-induced endometritis. In addition, treatment of DSS disrupted an imbalance of succinate-producing and succinate-consuming bacteria and increased the levels of succinate in the gut and uterine tissues. Furthermore, treatment with succinate aggravates LPS-induced endometritis by activating the succinate receptor 1 (SUCNR1), evidenced by inhibition of the activation of SUCNR1 reversed the inflammatory response in uterine tissues induced by succinate during endometritis induced by LPS. Collectively, the results suggested that dysbiosis of the gut microbiota exacerbates LPS-induced endometritis by production and migration of succinate from gut to uterine tissues via the gut-uterus axis, then activates the SUCNR1. This identifies gut-derived succinate as a novel target for treating endometritis, and it indicates that targeting the gut microbiota and its metabolism could be a potential strategy for intervention in endometritis.
Keywords: Colitic; Endometritis; Gut microbiota; SUCNR1; Succinate.
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