Gestational diabetes mellitus (GDM) significantly risks maternal and neonatal health. Circular RNAs (circRNAs) regulate various diseases but their role in GDM is unclear. We investigated the involvement of circ-ADAM9 in GDM. We analyzed circ-ADAM9 expression in GDM-related microarray data (GSE182737) and measured its levels in the blood of GDM patients. In a high-fat diet-induced GDM mouse model, we inhibited circ-ADAM9 expression and tracked blood glucose levels, serum insulin, lipid levels, placental apoptosis, and reactive oxygen species (ROS) levels. Pathological changes in pancreatic tissues and fetal outcomes were also examined. Molecular interactions were explored using bioinformatics tools and validated through luciferase assays, real-time quantitative polymerase chain reaction (RT-qPCR), and Western blotting in high glucose (HG)-induced human trophoblast cells (HTR-8/SVneo). We further investigated the involvement of circ-ADAM9/miR-375/FPR2 axis in HG-induced injury in HTR-8/SVneo cells by assessing cell viability, apoptosis, ROS production, and antioxidant levels. Both GDM patients and GDM-induced mice exhibited a substantial upregulation of circ-ADAM9. Knockdown of circ-ADAM9 lowered blood glucose, alleviated insulin resistance, improved lipid metabolism, decreased placental apoptosis and ROS levels, and reduced pancreatic lesions in GDM mice. Circ-ADAM9 downregulation also improved fetal viability, weight, and crown-rump length. In HG-induced HTR-8/SVneo cells, circ-ADAM9 overexpression and miR-375 downregulation were evident. Overexpression of miR-375 inhibited circ-ADAM9 activity, substantiating their binding interaction. In GDM mice, circ-ADAM9 deficiency restored miR-375 expression. TargetScanHuman predicted and luciferase assays confirmed the miR-375-FPR2 interaction and elevated FPR2 levels in GDM mice were reduced by circ-ADAM9 silencing. In HG-induced HTR-8/SVneo cells, circ-ADAM9 knockdown restored cell viability, suppressed apoptosis and ROS levels, and enhanced antioxidant enzyme levels. These effects were reversed by miR-375 inhibition or FPR2 overexpression, suggesting circ-ADAM9 upregulates FPR2 expression by sponging miR-375 and modulating the MAPK pathway. This study is the first to demonstrate the expression and function of circ-ADAM9 in the progression of GDM. Circ-ADAM9 downregulation ameliorates insulin resistance and placental injury in GDM by modulating the miR-375/FPR2 axis and inactivating the MAPK pathway, which may offer a novel therapeutic target for the treatment of GDM.
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