Molecular basis of electrocardiographic ST-segment elevation

ST elevation is a classical hallmark of acute transmural myocardial ischemia, Indeed, ST elevation is the major clinical criterion for committing patients with chest pain to emergent coronary revascularization. Despite its clinical importance, the mechanism of ST elevation remains unclear. Various studies have suggested that activation of sarcolemmal ATP-sensitive potassium (K-ATP) channels by ischemic ATP depletion may play a role, but little direct evidence is available. We studied mice with homozygous knockout (KO) of the Kir6.2 gene, which encodes the pore-forming subunit of cardiac surface KATP channels. patch-clamp studies in cardiomyocytes confirmed that surface K-ATP current was indeed absent in KO, but robust in cells from wild-type mice (WT). We then measured continuous electrocardiograms in anesthetized adult mice before and after open-chest ligation of the left anterior descending artery (LAD). Whereas ST elevation was readily evident ill WT after LAD ligation, it was markedly suppressed in KO, Such qualitative differences persisted for the rest of the 60-minute observation period of ischemia, In support of the concept that K-ATP channels are responsible for ST elevation, the surface K-ATP channel blocker HMR1098 (5 mg/kg IF) suppressed early ST elevation in WT. Thus, the opening of sarcolemmal K-ATP channels underlies ST elevation during ischemia, These data are the first to link a specific gene product with a common electrocardiographic phenomenon.