KATPChannel Activation in a Rabbit Model of Chronic Myocardial Hypoxia

Increased tolerance to ischemia exhibited in chronically hypoxic immature rabbit hearts is associated with increased activation of ATP-sensitive potassium (KATP) channels. We determined whether exposure to hypoxia from birth alters the electrophysiological characteristics of Purkinje fibers obtained from rabbits (n=12/group) which were raised in a normoxic (F1O2=0.21) or hypoxic (F1O2=0.12) environment from birth to 9 days of age and the involvement of the KATPchannel. The endocardial surface was exposed and impaled with microelectrodes to record action potential characteristics from Purkinje fibers under control conditions and following exposure to glibenclamide (3μm). Action potential durations (APD)90in Purkinje fibers were significantly shorter in hypoxic hearts compared with normoxic controls (110±5 msv121±4 ms). Glibenclamide increased APD90in hypoxic hearts (120±4 ms) to values similar to those observed in normoxic controls (121±4 ms). Glibenclamide had no effect on APD90in normoxic hearts. Maximum diastolic potenital was more negative in hypoxic hearts and this effect was attenuated by glibenclamide. We conclude that chronic myocardial hypoxia results in a shorter APD as compared with normoxic controls by enhanced activation of KATPchannels.