Restoration of liver insulin signaling in Insr knockout mice fails to normalize hepatic insulin action
Haruka Okamoto, … , Domenico Accili, Luciano Rossetti
Haruka Okamoto, … , Domenico Accili, Luciano Rossetti
Published May 2, 2005
Citation Information: J Clin Invest. 2005;115(5):1314-1322. https://doi.org/10.1172/JCI23096.
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Article Metabolism

Restoration of liver insulin signaling in Insr knockout mice fails to normalize hepatic insulin action

Abstract

Partial restoration of insulin receptor Insr expression in brain, liver, and pancreatic β cells is sufficient for rescuing Insr knockout mice from neonatal death, preventing diabetes ketoacidosis, and normalizing life span and reproductive function. However, the transgenically rescued mice (referred to as L1) have marked hyperinsulinemia, and approximately 30% develop late-onset type 2 diabetes. Analyses of protein expression indicated that L1 mice had modestly reduced Insr content but normal insulin-stimulated Akt phosphorylation in the liver. Conversely, L1 mice had a near complete ablation of Insr protein product in the arcuate and paraventricular nuclei of the hypothalamus, which was associated with a failure to undergo insulin-dependent Akt phosphorylation in the hypothalamus. To test whether reconstitution of insulin signaling in the liver is sufficient for restoring in vivo hepatic insulin action, we performed euglycemic hyperinsulinemic clamp studies in conscious L1 and WT mice. During the clamp, L1 mice required an approximately 50% lower rate of glucose infusion than did WT controls, while the rate of glucose disappearance was not significantly altered. Conversely, the rate of glucose production was increased approximately 2-fold in L1 mice. Thus, restoration of hepatic insulin signaling in Insr knockout mice fails to normalize the in vivo response to insulin.

Authors

Haruka Okamoto, Silvana Obici, Domenico Accili, Luciano Rossetti

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Figure 4

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Impact of Insr genotype on hepatic glucose fluxes and gene expression. (...
Impact of Insr genotype on hepatic glucose fluxes and gene expression. (A) The rates of endogenous GP and of G6Pase flux were markedly increased in L1 (white bars) compared with WT (black bars) mice. (B) The rate of gluconeogenesis (GNG) was markedly increased in L1 compared with WT mice, while the rate of glycogenolysis (GLG) was not significantly changed. (C) The rate of glucose cycling (GC) was also markedly increased in L1 compared with WT mice. (D) The hepatic expressions of insulin-responsive genes such as PEPCK, G6Pase, and IGFBP1 were not affected in L1 mice. (E) In summary, in the presence of physiological hyperinsulinemia, L1 mice displayed a dramatic increase in the rate of gluconeogenesis (indicated by the thicker arrows) that largely accounts for the increase in glucose output. GK, glucokinase; G6-P, glucose-6-phosphate; UDP-G, UDP-glucose. The values represent mean ± SEM.