Severe impairment in liver insulin signaling fails to alter hepatic insulin action in conscious mice
Christoph Buettner, … , Silvana Obici, Luciano Rossetti
Christoph Buettner, … , Silvana Obici, Luciano Rossetti
Published May 2, 2005
Citation Information: J Clin Invest. 2005;115(5):1306-1313. https://doi.org/10.1172/JCI23109.
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Article Metabolism

Severe impairment in liver insulin signaling fails to alter hepatic insulin action in conscious mice

Abstract

Insulin exerts its potent effects on hepatic glucose fluxes via direct and indirect mechanisms. Whereas a liver-specific insulin receptor (IR) knockout (LIRKO) mouse exhibits glucose intolerance as well as insulin resistance, it is unclear whether a more acute decrease in the expression of hepatic IR would be sufficient to induce hepatic insulin resistance. Here we report that the downregulation of hepatic IR expression by up to 95% does not modify hepatic insulin action. The i.p. administration (2 injections over 1 week) of an antisense oligodeoxynucleotide (ASO) directed to reduce insulin expression downregulated hepatic IR expression in C57BL6J mice. A high dose of IR-ASO decreased IR protein approximately 95%, while a control-ASO failed to modify IR expression. At this dose, the IR-ASO also decreased IR expression in adipose tissue but did not significantly decrease IR expression in hypothalamus or skeletal muscle. Insulin action was assessed with insulin clamp studies in conscious mice. The rate of glucose infusion during the clamp studies was comparable in control-ASO– and IR-ASO–treated mice. Importantly, the depletion of liver IR protein markedly impaired downstream insulin signaling in the liver, but it failed to modify the rate of glucose production. Thus, near ablation of liver IR does not alter insulin action on glucose production.

Authors

Christoph Buettner, Rima Patel, Evan D. Muse, Sanjay Bhanot, Brett P. Monia, Rob McKay, Silvana Obici, Luciano Rossetti

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Acute downregulation of IR protein does not lead to hepatic insulin resi...
Acute downregulation of IR protein does not lead to hepatic insulin resistance. (A) Schematic representation of the insulin clamp procedure. The infusion studies lasted a total of 90 minutes. Mice received a primed-constant infusion of HPLC-purified [3-3H]-glucose (0.1 μCi/min) and insulin (3.6 mU/kg/min) at t = 0 minutes for the duration of the study. A variable infusion of a 10% glucose solution was started and periodically adjusted (glucose as needed) to maintain the plasma glucose concentration at approximately 8 mM for the rest of the study. (B) Western blot analysis of IR protein expression in liver extracts from mice receiving the insulin clamp procedure after treatment with the high dose IR-ASO or scrambled control-ASO. (C) Rates of glucose infusion (GIR) during the insulin clamp studies of mice treated with low and high dose IR antisense compared with mice treated with control-ASO. (D) Rates of glucose uptake (Rd) during the insulin clamp studies. (D) Rates of endogenous GP during the insulin clamp studies.