Obesity-associated insulin resistance (IR) is a major risk factor for developing type 2 diabetes and an array of other metabolic disorders. In particular, hepatic IR contributes to the increase in hepatic glucose production and consequently the development of fasting hyperglycemia. In this study, we explored whether kaempferol, a flavonoid isolated from Gink go biloba, is able to regulate hepatic gluconeogenesis and blood glucose homeostasis in high-fat diet-fed obese mice and further explored the underlying mechanism by which it elicits such effects. Oral administration of kaempferol (50 mg/kg/day), which is the human equivalent dose of 240 mg/day for an average 60 kg human, significantly improved blood glucose control in obese mice, which was associated with reduced hepatic glucose production and improved whole-body insulin sensitivity without altering body weight gain, food consumption or adiposity. In addition, kaempferol treatment increased Akt and hexokinase activity, but decreased pyruvate carboxylase (PC) and glucose-6 phosphatase activity in the liver without altering their protein expression. Consistently, kaempferol decreased PC activity and suppressed gluconeogenesis in HepG2 cells as well as primary hepatocytes isolated from the livers of obese mice. Furthermore, we found that kaempferol is a direct inhibitor of PC. These findings suggest that kaempferol may be a naturally occurring antidiabetic compound that acts by suppressing glucose production and improving insulin sensitivity. Kaempferol suppression of hepatic gluconeogenesis is due to its direct inhibitory action on the enzymatic activity of PC.
Keywords: Flavonoid; Gluconeogenesis; Insulin resistance; Kaempferol; Pyruvate carboxylase; Type 2 diabetes.
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