Abstract
Cardiac glucose metabolism is critical to hypoxic cardiac function and hypoxia is known to stimulate glucose metabolism. This increases generation of ATP when mitochondrial respiration is inhibited. In diabetes, cardiac glucose metabolism declines and this may contribute to diabetic cardiomyopathy. The first step in committing glucose to metabolism is glucose phosphorylation catalyzed by hexokinase. But the potential role of hexokinase in the hypoxic or diabetic heart is uncertain. This study is designed to assess the ability of hexo-kinase and elevated ATP to protect cardiomyocyte contractility from hypoxia and diabetes. We used cardiomyocytes from the transgenic mouse Mh, which has cardiac specific expression of yeast hexokinase, to investigate the importance of glucose phosphorylation in the myocyte response to hypoxia and diabetes. Cardiomyocytes were isolated from FVB control and Mh hearts to assess the effects of 2 h of hypoxia on myocyte contractility and ATP content. The protective effect of hexokinase on diabetes was assessed in myocytes from the OVE26 Type I diabetic mouse and in OVE26Mh diabetic mice that carry the hexokinase gene. Overexpression of hexokinase had no effect during aerobic culture, but during hypoxia, hexokinase improved ATP content by 44% and this restored contractility almost to normal levels. In myocytes from diabetic mice, tested under both aerobic and hypoxic conditions, the hexokinase gene significantly improved ATP content and this significantly improved contractility. These results demonstrate that elevating hexokinase activity can be beneficial to hypoxic or diabetic cardiomyocytes secondary to improving myocyte ATP levels.
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