[HTML][HTML] Hepatic insulin signalling is dispensable for suppression of glucose output by insulin in vivo

PM Titchenell, Q Chu, BR Monks… - Nature communications, 2015 - nature.com
PM Titchenell, Q Chu, BR Monks, MJ Birnbaum
Nature communications, 2015nature.com
Insulin signalling and nutrient levels coordinate the metabolic response to feeding in the
liver. Insulin signals in hepatocytes to activate Akt, which inhibits Foxo1 suppressing hepatic
glucose production (HGP) and allowing the transition to the postprandial state. Here we
provide genetic evidence that insulin regulates HGP by both direct and indirect hepatic
mechanisms. Liver-specific ablation of the IR (l-Insulin Receptor KO) induces glucose
intolerance, insulin resistance and prevents the appropriate transcriptional response to …
Abstract
Insulin signalling and nutrient levels coordinate the metabolic response to feeding in the liver. Insulin signals in hepatocytes to activate Akt, which inhibits Foxo1 suppressing hepatic glucose production (HGP) and allowing the transition to the postprandial state. Here we provide genetic evidence that insulin regulates HGP by both direct and indirect hepatic mechanisms. Liver-specific ablation of the IR (L-Insulin Receptor KO) induces glucose intolerance, insulin resistance and prevents the appropriate transcriptional response to feeding. Liver-specific deletion of Foxo1 (L-IRFoxo1DKO) rescues glucose tolerance and allows for normal suppression of HGP and gluconeogenic gene expression in response to insulin, despite lack of autonomous liver insulin signalling. These data indicate that in the absence of Foxo1, insulin signals via an intermediary extrahepatic tissue to regulate liver glucose production. Importantly, a hepatic mechanism distinct from the IR–Akt–Foxo1 axis exists to regulate glucose production.
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