Depressed calcium cycling contributes to lower ischemia tolerance in hearts of estrogen-deficient rats

OBJECTIVE: Estrogens enhance ischemia tolerance (IT) in the myocardium, the mechanism of which remains unclear. We investigated the effects of long-term estrogen deprivation on the intracellular calcium (Ca(2+)(i)) transient of the heart and its possible influence on IT.

METHODS: Hearts of ovariectomized (OVX) and sham-operated (control) adult female rats (some receiving estrogen therapy) were studied 10 weeks after surgical operation: control (n = 8), OVX (n = 10), sham-operated estrogen-substituted (n = 7), and ovariectomized estrogen-substituted (n = 9). In vivo heart function was assessed by echocardiography, whereas Ca(2+)(i) transients were recorded, concomitantly with left ventricular pressure and coronary flow, by Indo-1 surface fluorometry in isolated Langendorff-perfused hearts. Isolated hearts were subjected to a 30-minute global ischemia-30-minute reperfusion protocol. Left ventricular expression of myocardial sarcoendoplasmic reticulum Ca(2+)-ATPase (SERCA2a), phospholamban (PLB), and Ser16-phosphorylated PLB was measured.

RESULTS: Ovariectomy did not influence resting cardiac function in vivo or ex vivo. However, Ca(2+) removal was slower. During ischemia, Ca(2+)(i) elevation and ischemic contracture were more pronounced after ovariectomy. Postischemic restitution of inotropic function (developed pressure; +dP/dt(max)) and lusitropic function (-dP/dt(max)) and Ca(2+)(i) transient recovery (amplitude; ±dCa(2+)(i)/dt(max)) were decreased in OVX hearts. Sarcoendoplasmic reticulum Ca(2+)-ATPase expression was unaltered, whereas PLB and Ser16-phosphorylated PLB levels were higher after ovariectomy. All effects of ovariectomy were restored by estrogen therapy.

CONCLUSIONS: Ovariectomy impairs myocardial Ca(2+) removal by increasing the expression of the SERCA2a inhibitor PLB. Defective Ca(2+) transport causes ischemic Ca(2+)(i) overload and insufficient postischemic recovery of Ca(2+)(i) transients, which entail depressed hemodynamic restitution. Protection of intact Ca(2+) cycling in the myocardium by estrogens plays a major role in enhancing IT.