Protection by ischemic preconditioning is lost in cardiomyocytes and hearts of heterozygous connexin 43 deficient (Cx43+/-) mice. Because connexin 43 (Cx43) is localized in cardiomyocyte mitochondria and mitochondrial Cx43 content is increased with ischemic preconditioning, we now tried to identify a functional defect at the level of the mitochondria in Cx43+/- mice by use of diazoxide and menadione. Diazoxide stimulates the mitochondrial formation of reactive oxygen species (ROS) and menadione generates superoxide at multiple intracellular sites; both substances elicit cardioprotection through increased ROS formation. ROS formation in response to the potassium ionophore valinomycin was also measured for comparison. Menadione (2 micromol/L) and valinomycin (10 nmol/L) induced similar ROS formation in wild-type (WT) and Cx43+/- cardiomyocytes. In contrast, diazoxide (200 micromol/L) increased ROS formation by 43+/-10% versus vehicle in WT, but only by 18+/-4% in Cx43+/- cardiomyoctes (P<0.05). Two hour-simulated ischemia and oxygenated, hypo-osmolar reperfusion reduced viability as compared with normoxia (WT: 7+/-1% versus 39+/-2%, (Cx43+/-): 8+/-1% versus 40+/-3%, P<0.01). Although menadione protected WT and Cx43+/- cardiomyocytes, diazoxide increased viability (17+/-2%, P<0.01) in WT, but not in Cx43+/- (9+/-1%). Menadione (37 microg/kg i.v.) before 30 minutes coronary occlusion and 2 hour reperfusion reduced infarct size in WT and Cx43+/- mice (24+/-4% versus 24+/-5%). In contrast, diazoxide (5 mg/kg i.v.) reduced infarct size in WT (35+/-4% versus 55+/-3% of area at risk, P<0.01), but not in Cx43+/- mice (56+/-2% versus 54+/-3%). Cardiomyocytes of Cx43+/- mice have a specific functional deficit in ROS formation in response to diazoxide and accordingly less protection.