Diltiazem is known to exert significant cardioprotection, but its efficacy under hypothermic conditions has not been documented. Because of its lipophilicity and its better tissue penetration, clentiazem, a chlorobenzothiazepine derivative of diltiazem, may offer cytoprotection additive to cold cardioplegia. We investigated the cardioprotective actions of clentiazem and diltiazem (10(-8) and 10(-6) M) when added to cold cardioplegia (myocardial temperature of 10 degrees-12 degrees C), in isolated rabbit heart subjected to 90-min global ischemia. Functional recovery was assessed by measuring left ventricular developed pressure (LVDP), coronary flow (CF) and heart rate (HR). To explore the potential beneficial mechanisms of these agents, we measured myocardial lipids and total calcium at the end of a 30-min period of reperfusion as well as their myocardial accumulation. Addition of 10(-8) M clentiazem to cold cardioplegia resulted in significant improvement in mechanical recovery (postischemic LVDP of 88.5 mm Hg with cardioplegia alone vs. 105.5 mm Hg with added clentiazem at 25 mm Hg diastolic pressure, DP). The additive cardioprotection afforded by clentiazem appeared to be concentration dependent since significant cardiodepression (postischemic LVDP of 79.8 mm Hg and 18% reduction in HR) was observed at a higher concentration (10(-6) M) and these effects were correlated with myocardial accumulation of the drug. The additive cardioprotective effect of clentiazem appeared to be structure related because diltiazem at both 10(-8) and 10(-6) M concentrations offered no benefits in addition to cold cardioplegia. These results indicate that the additive cardioprotection observed with 10(-8) M clentiazem could be related to its coronary vasodilator action since it reversed the cold cardioplegia-induced attenuation of hyperemic CF at reperfusion. Other factors must be involved, however, because addition of 10(-6) M diltiazem resulted in increased postischemic CF but without improving myocardial recovery. The functional protection offered by 10(-8) M clentiazem was associated with preservation of myocardial lipid components. Myocardial cholesterol content, which is essential for maintenance of membrane integrity, was preserved in that group, whereas a loss was observed in groups treated with cardioplegia alone and in the other treated groups. Total myocardial phospholipids were preserved in groups receiving 10(-8) M clentiazem plus cold cardioplegia or cold cardioplegia alone. A reduction in plasmalogen content, the predominant myocardial phospholipid species, and an increase in total myocardial calcium were noted only in ischemic hearts that received neither cardioplegia nor benzothiazepines, suggesting that cold cardioplegia is sufficient to prevent irreversible damage. Clentiazem affords cardioprotective benefits additive to cold cardioplegia.(ABSTRACT TRUNCATED AT 400 WORDS)