Astragaloside IV relieves gestational diabetes mellitus in genetic mice through reducing hepatic gluconeogenesis
Ruixue Zhang, Baoheng Xing, Jianyong Zhao, Xuelei Zhang, Ling Zhou, Shuangyan Yang, Yong Wang, Fengzhen Yang
Abstract
The glucose intolerance developed during pregnancy is called gestational diabetes mellitus (GDM). GDM has become a severe risk for the health of both mother and baby. Astragaloside IV (AS-IV) is the dominant active component in Astragalus membranaceus and has been reported to have anti-inflammation and immune-regulation function. We aimed to demonstrate the function of AS-IV in the therapy of GDM and the molecular mechanism in this process. C57BL/KsJ-Lep db/+ female mice were used as the GDM model. The mRNA levels of relative genes in this research were detected by quantitative real-time PCR. The protein levels of relative genes were analyzed by Western blot. Serum lipid level was measured with an ILab Chemistry Analyzer 300 PLUS. Glucose, insulin, and lipid profile levels in the GDM mice model were decreased by AS-IV treatment. AS-IV downregulated the expression of inflammatory genes and upregulated the expressions of anti-oxidant genes in the GDM mice model. AS-IV treatment reduced cAMP accumulation in liver and reduced hepatic gluconeogenesis in GDM mice. This study demonstrated that AS-IV treatment has an effective therapeutic function of GDM in a mice model through the regulation of cAMP accumulation and hepatic gluconeogenesis.