Abstract
Hepatosteatosis is associated with the development of both hepatic insulin resistance and Type 2 diabetes. Hepatic expression of Cd36, a fatty acid transporter, is enhanced in obese and diabetic murine models and human nonalcoholic fatty liver disease, and thus it correlates with hyperinsulinemia, steatosis, and insulin resistance. Here, we have explored the effect of hyperinsulinemia on hepatic Cd36 expression, development of hepatosteatosis, insulin resistance, and dysglycemia. A 3-week sucrose-enriched diet was sufficient to provoke hyperinsulinemia, hepatosteatosis, hepatic insulin resistance, and dysglycemia in CBA/J mice. The development of hepatic steatosis and insulin resistance in CBA/J mice on a sucrose-enriched diet was paralleled by increased hepatic expression of the transcription factor Pparγ and its target gene Cd36 whereas that of genes implicated in lipogenesis, fatty acid oxidation, and VLDL secretion was unaltered. Additionally, we demonstrate that insulin, in a Pparγ-dependent manner, is sufficient to directly increase Cd36 expression in perfused livers and isolated hepatocytes. Mouse strains that display low insulin levels, i.e. C57BL6/J, and/or lack hepatic Pparγ, i.e. C3H/HeN, do not develop hepatic steatosis, insulin resistance, or dysglycemia on a sucrose-enriched diet, suggesting that elevated insulin levels, via enhanced CD36 expression, provoke fatty liver development that in turn leads to hepatic insulin resistance and dysglycemia. Thus, our data provide evidence for a direct role for hyperinsulinemia in stimulating hepatic Cd36 expression and thus the development of hepatosteatosis, hepatic insulin resistance, and dysglycemia.
Highlights
Enhanced hepatic expression of the fatty acid transporter Cd36 correlates with liver fat accumulation, hepatosteatosis, insulin resistance, and hyperinsulinemia
We previously showed that Gpr40, known as Ffar1, mediates high fat diet-induced hyperinsulinemia, and our study suggested that hyperinsulinemia, hepatic Cd36 expression, hepatosteatosis, and insulin resistance were associated (15)
CBA/J, but Not C57BL6/J, Mice on a Sucrose-rich Diet Become Hyperinsulinemic and Glucose-intolerant—To investigate a potential correlation between hyperinsulinemia and development of hepatosteatosis, we established an in vivo model for early onset hyperinsulinemia by exposing CBA/J (CBA), i.e. high insulin secreting, and C57BL6/J (B6), i.e. low insulin secreting, mice to a standard diet (CD) or standard diet plus 32% sucrose in the drinking water (sucrose-rich diet (SRD)) during a 3w period
Summary
Enhanced hepatic expression of the fatty acid transporter Cd36 correlates with liver fat accumulation, hepatosteatosis, insulin resistance, and hyperinsulinemia. Conclusion: Hyperinsulinemia stimulates hepatic Cd36 expression, which correlates with the development of hepatosteatosis, hepatic insulin resistance, and dysglycemia. Hepatic expression of Cd36, a fatty acid transporter, is enhanced in obese and diabetic murine models and human nonalcoholic fatty liver disease, and it correlates with hyperinsulinemia, steatosis, and insulin resistance. The development of hepatic steatosis and insulin resistance in CBA/J mice on a sucrose-enriched diet was paralleled by increased hepatic expression of the transcription factor Ppar␥ and its target gene Cd36 whereas that of genes implicated in lipogenesis, fatty acid oxidation, and VLDL secretion was unaltered. Cd36 mRNA levels are drastically increased in livers of murine models of obesity and T2D (7), and CD36 expression correlates with liver TG accumulation, insulin resistance, and hyperinsulinemia in human NAFLD (8, 9). Hyperinsulinemia, which is associated with both T2D and NAFLD, is generally considered a consequence of insulin resis-
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