Abstract
Polycystic ovary syndrome (PCOS) is an endocrine disorder that affects fertility in women of reproductive age, and a leading cause of anovulatory infertility. Ovarian granulosa cells are a major functional cell type in the ovary that undergo epithelial-to-mesenchymal transition (EMT) to initiate ovulation. Protein glycosylation, catalyzed by specific glycosyltransferases, has been implicated in reproductive events, such as embryo implantation, endometrial receptivity, and decidualization, etc. However, the relationship between glycosylation and EMT-mediated ovulation in PCOS is not well understood. To clarify the role of cobalt chloride (CoCl2) and α-1,3/1,6-mannosyltransferase (ALG2) in PCOS, transwell assay, Real-time PCR, Western blot, immunofluorescence, and sphere formation assay were applied to assess cell migration, invasion, EMT, and stemness of ovarian granulosa cells. Enzyme-linked immunosorbent assay (ELISA) was performed to measure the serum level of ALG2 in PCOS patients. We found that CoCl2 promoted the migration, invasion, EMT, and stemness of ovarian granulosa cells by downregulating the expression of ALG2. Upregulation of ALG2 rescued the effects of CoCl2 partially, and inhibited the EMT and stemness of ovarian granulosa cells by inactivating the Wnt/β-catenin signaling pathway. Moreover, the serum level of ALG2 was increased in patients with PCOS. Elevated ALG2, in combination with testosterone, represented better diagnostic value for PCOS as a multimarker than ALG2 or testosterone alone as a single marker. Thus, ALG2, downregulated by CoCl2, was increased in PCOS patients which inhibited the EMT and stemness of ovarian granulosa cells by deactivating the Wnt/β-catenin signaling pathway. The combination of ALG2 and testosterone might thus act as a novel but promising biomarker for PCOS detection.
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