Abstract
Cardiac insulin resistance plays an important role in the development of heart failure, but the underlying mechanisms remain unclear. Here, we found that hypertrophic hearts exhibit normal cardiac glucose oxidation rates, but reduced fatty acid oxidation rates, compared to Sham controls under basal (no insulin) conditions. Furthermore, insulin stimulation attenuated insulin’s effects on cardiac substrate utilization, suggesting the development of cardiac insulin resistance. Consistent with insulin resistance, p38-MAPK protein levels were reduced in hypertrophic hearts. By contrast, systemic hyperinsulin-euglycemic clamp indicated normal insulin sensitivity. Finally, electron microscopy revealed severe mitochondrial damage in the hypertrophic myocardium. Our results indicate that that cardiac insulin resistance caused by cardiac hypertrophy is associated with mitochondrial damage and cardiac dysfunction. Moreover, our findings suggest that cardiac insulin resistance is independent of systemic insulin resistance, which is also a risk factor for heart failure.
Highlights
Heart failure is a complex clinical syndrome that results from many cardiovascular diseases and is the most common cause of death worldwide [1]
Our results indicate that that cardiac insulin resistance caused by cardiac hypertrophy is associated with mitochondrial damage and cardiac dysfunction
Insulin resistance is associated with heart failure; it is currently thought that diabetes and insulin resistance cause myocardial ischemia, which leads to ischemic cardiomyopathy and heart failure [2]
Summary
Heart failure is a complex clinical syndrome that results from many cardiovascular diseases and is the most common cause of death worldwide [1]. Many clinical trials have confirmed that systemic insulin resistance is an independent risk factor for heart failure and cardiovascular death [3]. Witteles suggested that insulin resistance is associated with heart failure independent of coronary artery disease [4]. Some researchers have suggested that the heart is a target organ of systemic insulin resistance, and that local myocardial insulin resistance is a distinct risk factor for heart failure. We investigated the effects of myocardial insulin resistance on the development of heart failure
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