ATP-sensitive potassium channels are altered in ventricular myocytes from diabetic rats

Abstract

Hypoxia-induced shortening of the action potential duration, attributed to activation of the ATP-sensitive potassium (K_ATP) channels, occurs to a much greater extent in ventricular cells from diabetic rats. This study examined whether the K_ATP channels are altered in streptozotocin-diabetic myocardium. In inside-out patches from ventricular myocytes (with symmetrical 140 mM [K+]), inward K_ATP currents (at potentials negative to the K+ reversal potential) were similar in amplitude in control and diabetic patches (slope conductances: 69 and 74 pS, respectively). However, outward single-channel currents were larger for channels from diabetic heart cells than from control cells (e.g., at +75 mV the diabetic channel currents were 3.7 ± 0.3 pA vs. 2.7 ± 0.1 pA for control currents, p < 0.05), due to reduced inward rectification of diabetic channel currents. There was no difference in open and closed times between control and diabetic channels. The IC₅₀ for ATP inhibition of the K_ATP channel single-channel currents was 11.4 μM for control currents and 4.7 μM for diabetic channel currents. Thus, the major difference found between K_ATP channels from control and diabetic hearts was the greater outward diabetic single-channel current, which may contribute to the enhanced sensitivity to hypoxia (or ischemia) in diabetic hearts.