Parabacteroides goldsteinii and its metabolite 7-KLCA attenuate endometriosis via TGR5 to reprogram macrophages by modulating the PPARγ/GPR132 axis.
Endometriosis (EMS) remains understudied in effective management strategies. The interplay between macrophage dysfunction and microbiota-derived immune signals emerges as a potential mechanism in EMS pathogenesis, suggesting its relevance for future …
Endobiota-Estrobolome Profiles in Reproductive-Aged Women With Ovarian Endometriosis.
This case-control study investigated whether ovarian endometriosis is associated with altered estrogen metabolism and gut or urogenital microbiota by analyzing enzyme activity, bacterial composition, and variations of estrogen metabolites in …
Unveiling the Bidirectional Relationship on the Effect of Gut Microbiota and Female Infertility: A Narrative Review.
Dysbiosis is the substitution of the normal gut flora with a dysfunctional array of organisms that influences the outcome of multiple inflammatory pathways, contributing to systemic inflammation and various disease …
Microecological modulators-new perspectives for treating sex hormone disorders.
Sex hormone related disorders, characterized by complex etiology and long-term health risks, pose a significant challenge to global health. Hormone-based therapies are often accompanied by adverse effects and fail to …
Microbiota-metabolite axis in endometriosis: Pathogenic mechanisms and clinical implications.
Growing evidence highlights the role of microbiota, including those of the gut, reproductive tract, and endometrial tissue, as critical functional drivers in the pathogenesis of endometriosis (EM). Studies have revealed …
Metabolomics Analysis Reveals Gut Microbiota-Associated Sakuranin Modulates Endometrial Stem Cell Differentiation and Inflammation to Alleviate Pain in Endometriosis [Response to Letter].