Abstract

ATP-sensitive potassium channels (K ATP) play an important, if incompletely defined, role in myocardial function in mammals. With the discovery that K ATP channels are also present at high densities in the hearts of vertebrate ectotherms, speculation arises as to their function during periods of cold-acclimation and depressed ATP synthesis. We used single-channel and intracellular recording techniques to examine the possibility that channel activity would be altered in cardiac muscle from goldfish ( Carassius auratus) acclimated at 7 ± 1°C relative to control (21 ± 1°C). As previously observed in mammals, K ATP channels in isolated ventricular myocytes were inwardly rectified with slope conductances of 63 pS. However, channel mean open-time and overall open-state probability (P o) were significantly increased in cells from the cold-acclimated animals. In addition, K ATP channels in cells from fish acclimated at 7° were nearly insensitive to the inhibitory effects of 2 mM ATP, whether studied at 7 or at 21°C. Transmembrane action potential duration (APD) in hearts of cold-acclimated fish studied at 21° was significantly shorter than that observed in hearts of warm-acclimated fish at the same temperature; this difference was eliminated by the K ATP channel antagonist glibenclamide (5 μM). These data suggest that K ATP channels in the hearts of cold-acclimated animals are more active and less sensitive to ATP-inhibition than those in warm-acclimated fish, possibly reflecting a functional adaptation to promote tolerance of low temperatures in this species.

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