RESUMO
Although amino acid deficiencies are known to occur in diabetes patients and are considered to contribute to the occurrence of cardiomyopathy, the mechanisms of the impact of the restoration of amino acids on improved cardiac function are not completely understood. Accordingly, the present study was conducted to examine the beneficial effects of dietary supplementation of taurine, arginine and carnitine, individually or in combination, in an experimental model of chronic diabetes. For inducing diabetes, rats received a single injection of streptozotocin (65 mg/kg body weight). Experimental animals were treated (by oral gavage) daily for three weeks with amino acids before the induction of diabetes; this treatment was continued for an additional eight-week period. Diabetes was observed to induce cardiac dysfunction, myocardial cell damage, and changes in plasma glucose and lipid levels. Treatment of diabetic animals with taurine, unlike carnitine or arginine, attenuated alterations in cardiac function, as evidenced by echocardiography and in vivo catheterization techniques. Taurine, carnitine and arginine, individually or in combination, attenuated diabetes-induced cell damage as revealed by electron microscopy. While carnitine alone reduced plasma levels of triglycerides with an increase in high-density lipoprotein cholesterol, none of the amino acids, alone or in combination, had an effect on myocardial glycogen content, lipid accumulation or hyperglycemia. These results suggest that dietary supplementation of taurine attenuates diabetes-induced changes in cardiac contractile function and ultrastructure without any alterations in plasma lipid and glucose levels.
RESUMO
Although sarpogrelate, a 5-HT(2A) receptor antagonist, has been reported to exert beneficial effects in diabetes, the mechanisms of its action are not understood. In this study, diabetes was induced in rats by an injection of streptozotocin (65 mg/kg) and the animals were assessed 7 weeks later. Decreased serum insulin as well as increased serum glucose, cholesterol, and triglyceride levels in diabetic animals were associated with increased blood pressure and heart/body weight ratio. Impaired cardiac performance in diabetic animals was evident by decreased heart rate, left ventricular developed pressure, rate of pressure development, and rate of pressure decay. Treatment of diabetic animals with sarpogrelate (5 mg/kg) or insulin (10 units/kg) daily for 6 weeks attenuated the observed changes in serum insulin, glucose, and lipid levels as well as blood pressure and cardiac function by varying degrees. Protein content for membrane glucose transporters (GLUT-1 and GLUT-4) was depressed in diabetic heart; the observed alteration in GLUT-4 was partially prevented by both sarpogrelate and insulin, whereas that in GLUT-1 was attenuated by sarpogrelate only. Incubation of myoblast cells with sarpogrelate and insulin stimulated glucose uptake; these effects were additive. 5-hydroxytryptamine was found to inhibit glucose-induced insulin release from the pancreas; this effect was prevented by sarpogrelate. These results suggest that sarpogrelate may improve cardiac function in chronic diabetes by promoting the expression of membrane glucose transporters as well as by releasing insulin from the pancreas.
