Compensatory hyperinsulinemia in high-fat diet-induced obese mice is associated with enhanced insulin translation in islets
A Kanno, S Asahara, K Masuda, T Matsuda… - Biochemical and …, 2015 - Elsevier
A Kanno, S Asahara, K Masuda, T Matsuda, M Kimura-Koyanagi, S Seino, W Ogawa, Y Kido
Biochemical and Biophysical Research Communications, 2015•ElsevierA high-fat diet (HF) is associated with obesity, insulin resistance, and hyperglycemia. Animal
studies have shown compensatory mechanisms in pancreatic β-cells after high fat load,
such as increased pancreatic β-cell mass, enhanced insulin secretion, and exocytosis.
However, the effects of high fat intake on insulin synthesis are obscure. Here, we
investigated whether insulin synthesis was altered in correlation with an HF diet, for the
purpose of obtaining further understanding of the compensatory mechanisms in pancreatic β …
studies have shown compensatory mechanisms in pancreatic β-cells after high fat load,
such as increased pancreatic β-cell mass, enhanced insulin secretion, and exocytosis.
However, the effects of high fat intake on insulin synthesis are obscure. Here, we
investigated whether insulin synthesis was altered in correlation with an HF diet, for the
purpose of obtaining further understanding of the compensatory mechanisms in pancreatic β …
Abstract
A high-fat diet (HF) is associated with obesity, insulin resistance, and hyperglycemia. Animal studies have shown compensatory mechanisms in pancreatic β-cells after high fat load, such as increased pancreatic β-cell mass, enhanced insulin secretion, and exocytosis. However, the effects of high fat intake on insulin synthesis are obscure. Here, we investigated whether insulin synthesis was altered in correlation with an HF diet, for the purpose of obtaining further understanding of the compensatory mechanisms in pancreatic β-cells. Mice fed an HF diet are obese, insulin resistant, hyperinsulinemic, and glucose intolerant. In islets of mice fed an HF diet, more storage of insulin was identified. We analyzed insulin translation in mouse islets, as well as in INS-1 cells, using non-radioisotope chemicals. We found that insulin translational levels were significantly increased in islets of mice fed an HF diet to meet systemic demand, without altering its transcriptional levels. Our data showed that not only increased pancreatic β-cell mass and insulin secretion but also elevated insulin translation is the major compensatory mechanism of pancreatic β-cells.
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