Abstract
Excessive endogenous glucose production contributes to fasting hyperglycemia in diabetes. FoxO6 is a distinct member of the FoxO subfamily. To elucidate the role of FoxO6 in hepatic gluconeogenesis and assess its contribution to the pathogenesis of fasting hyperglycemia in diabetes, we generated FoxO6 knock-out (FoxO6-KO) mice followed by determining the effect of FoxO6 loss-of-function on hepatic gluconeogenesis under physiological and pathological conditions. FoxO6 depletion attenuated hepatic gluconeogenesis and lowered fasting glycemia in FoxO6-KO mice. FoxO6-deficient primary hepatocytes were associated with reduced capacities to produce glucose in response to glucagon. When fed a high fat diet, FoxO6-KO mice exhibited significantly enhanced glucose tolerance and reduced blood glucose levels accompanied by improved insulin sensitivity. These effects correlated with attenuated hepatic gluconeogenesis in FoxO6-KO mice. In contrast, wild-type littermates developed fat-induced glucose intolerance with a concomitant induction of fasting hyperinsulinemia and hyperglycemia. Furthermore, FoxO6-KO mice displayed significantly diminished macrophage infiltration into liver and adipose tissues, correlating with the reduction of macrophage expression of C-C chemokine receptor 2 (CCR2), a factor that is critical for regulating macrophage recruitment in peripheral tissues. Our data indicate that FoxO6 depletion protected against diet-induced glucose intolerance and insulin resistance by attenuating hepatic gluconeogenesis and curbing macrophage infiltration in liver and adipose tissues in mice.
Highlights
Excessive endogenous glucose production is a major contributing factor for fasting hyperglycemia in diabetes
In this study we determined the effect of FoxO6 depletion on hepatic gluconeogenesis and blood glucose metabolism in mice
We showed that FoxO6 depletion suppressed hepatic gluconeogenesis, contributing to a significant improvement of postprandial and fasting blood glucose profiles
Summary
Excessive endogenous glucose production is a major contributing factor for fasting hyperglycemia in diabetes. When fed a high fat diet, FoxO6-KO mice exhibited significantly enhanced glucose tolerance and reduced blood glucose levels accompanied by improved insulin sensitivity. These effects correlated with attenuated hepatic gluconeogenesis in FoxO6-KO mice. Gluconeogenesis is stimulated to increase glucose production in the liver [12,13,14,15] Such a reciprocal mechanism, orchestrated by two functionally opposing hormones (insulin and glucagon), is crucial for rapid adaptation by the liver to metabolic shift between fed and fasting states for maintaining blood glucose levels within the physiological range [2]. In response to impaired insulin signaling in the liver, hepatic gluconeogenesis becomes unabated This effect accounts for excessive glucose production, contributing to fasting hyperglycemia in diabetes. Critical for insulin-dependent regulation of hepatic gluconeogenesis is FoxO1,5 known as a substrate of Akt/PKB
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