餐后
内科学
内分泌学
过剩2
胰岛素降解酶
脂肪变性
胰岛素
生物
糖尿病前期
葡萄糖摄取
人口
2型糖尿病
医学
糖尿病
葡萄糖转运蛋白
环境卫生
作者
Diego Olschowsky Borges,Rita S. Patarrão,Rogério T. Ribeiro,Rita Machado de Oliveira,Nádia Duarte,Getachew D. Belew,Madalena Martins,Rita Andrade,João Costa,Isabel Correia,José Manuel Boavida,Rui Duarte,L. Gardete-Correia,José Luís Medina,João Filipe Raposo,John G. Jones,Carlos Penha‐Gonçalves,Maria Paula Macedo
标识
DOI:10.1016/j.metabol.2021.154735
摘要
Systemic insulin availability is determined by a balance between beta-cell secretion capacity and insulin clearance (IC). Insulin-degrading enzyme (IDE) is involved in the intracellular mechanisms underlying IC. The liver is a major player in IC control yet the role of hepatic IDE in glucose and lipid homeostasis remains unexplored. We hypothesized that IDE governs postprandial IC and hepatic IDE dysfunction amplifies dysmetabolic responses and prediabetes traits such as hepatic steatosis. In a European/Portuguese population-based cohort, IDE SNPs were strongly associated with postprandial IC in normoglycemic men but to a considerably lesser extent in women or in subjects with prediabetes. Liver-specific knockout-mice (LS-IDE KO) under normal chow diet (NCD), showed reduced postprandial IC with glucose intolerance and under high fat diet (HFD) were more susceptible to hepatic steatosis than control mice. This suggests that regulation of IC by IDE contributes to liver metabolic resilience. In agreement, LS-IDE KO hepatocytes revealed reduction of Glut2 expression levels with consequent impairment of glucose uptake and upregulation of CD36, a major hepatic free fatty acid transporter. Together these findings provide strong evidence that dysfunctional IC due to abnormal IDE regulation directly impairs postprandial hepatic glucose disposal and increases susceptibility to dysmetabolic conditions in the setting of Western diet/lifestyle.
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