Effects of diabetic cardiomyopathy on regional electrophysiologic characteristics of rat ventricle

Aims/hypothesis. To identify the possible causes of the lengthening of the action potential duration described in patients affected by diabetes mellit us. Methods. We studied the effects of streptozotocin-induced diabetes on the c urrent density of the repolarising potassium currents I-to, I-K, I-ss and I -K1 in enzymatically isolated myocytes from three different regions of rat heart: total right ventricle, subepicardium at the apex of the left ventric le and subendocardium at the base of the left ventricle, Results. No changes in I-K1 were found due to diabetes, but there was a uni form decrease in I-to (50%) and I-ss (40%) current densities in the three r egions. In contrast, I-K diminished unevenly, with the greatest decrease in the subendocardium at the base of the left ventricle (48%), followed by th e subepicardium at the apex of the left ventricle (32%) and right ventricle (10%). Conclusion/interpretation. These findings suggest the existence of regional differences in ion channel expression associated with diabetes. The decrea se of these repolarising currents could account for the lengthening of acti on potential and the consequent change in the Q-T interval of the ECG obser ved in diabetic rats.