Abstract 181: Insulin Receptor Signaling Regulates ApoA-I Secretion from Hepatocytes

Abstract

The aim of the study was to assess the effect of insulin receptor (IR) signaling on hepatic apoA-I metabolism. The experimental approach was to compare hepatic apoA-I expression, secretion and cellular localization in IRfl/fl mice and LIRKO mice in which hepatic insulin receptors were specifically deleted by AAV delivered Cre-recombinase. Results showed that IR mRNA and protein levels were markedly reduced in the livers of LIRKO mice compared to control IRfl/fl mice. As expected, LIRKO mice exhibited decreased glucose tolerance and reduced hepatic insulin signaling. Knockdown of hepatic IR decreased plasma HDL cholesterol and apoA-I levels. Whereas apoA-I mRNA levels were similar in LIRKO and control hepatocytes, apoA-I protein levels were increased in both the liver and primary hepatocytes isolated from LIRKO mice. In contrast to apoA-I, apoE and apoB protein levels in the liver and in cultured hepatocytes, as well as in the plasma, were similar in LIRKO and control mice. ApoA-I accumulation in LIRKO hepatocytes was associated with a decreased rate of apoA-I secretion. Immunofluorescence staining demonstrated that apoA-I accumulated in LIRKO hepatocytes in membrane bound inclusions. These inclusions shared markers characteristic of early, late and recycling endosomes, and of lysosomes. We conclude that IR-mediated insulin signaling plays an important role in hepatic apoA-I secretion and consequent nascent HDL formation. Reduced apoA-I secretion from liver into the circulation may contribute to the lower HDL levels typically associated with insulin resistance.