RESUMO
Gender-based differences in cardiovascular mortality may be due to a cardio-protective effect of oestrogens on the myocardium. However, mRNA expression of oestrogen receptors in myocardial tissue of the adult heart has yet to be demonstrated. Furthermore, a calcium antagonistic action of 17beta-oestradiol on myocardial tissue has been discussed. Therefore, two subjects were investigated in atrial myocytes of the human, and ventricular myocytes of guinea-pig and rat in this study. (1) Are oestrogen receptors expressed in adult myocardial cells? (2) Is there an influence of oestrogens on the L-type calcium current of cardiac myocytes? Expression of oestrogen receptors was investigated by reverse polymerase chain reaction. L-type calcium current was usually measured by the patch-clamp technique in whole-cell recording mode under selective recording conditions, i.e. overlapping currents were blocked. One series of experiments was performed in perforated patch configuration to avoid internal perfusion. 17beta-oestradiol inhibited L-type calcium current reversibly in all three species. At 10(-5) M, the inhibition was 15-20%. This inhibition was independent of the sex and the species. A full concentration response curve of 17beta-oestradiol on basal L-type current was recorded from female guinea-pig myocytes. The inhibition increased from 2% at 10(-7) M to about 30% at 10(-4) M 17beta-oestradiol. The values could be fitted by a sum of two sigmoidal functions with log EC50 values of -6.5 and -4.9 M and Hill slopes of 2.5 for both. The specificity of the 17beta-oestradiol action was tested by recording the L-type current in the presence of 17alpha-oestradiol and oestrone. 17alpha-oestradiol also inhibited the current, but with a maximal inhibition of only 17%. The concentration-response curve could be fitted by a single sigmoidal function (log EC50 -6-3 M; Hill slope 0.55). Oestrone did not influence the current at all. The decrease in L-type current after the application of 17beta-oestradiol via a rapid perfusion system developed with a time constant of 3-4 s, which was in the same range as that for the influence of isoprenaline. The isoprenaline-stimulated L-type current was much more susceptible to the inhibition by 17beta-oestradiol, i.e. in pre-stimulated cells (1) the inhibitory effect is significantly higher (e.g. at 10(-5) M, inhibition was 36.3% compared with 11.2% in untreated cells) and (2) an inhibitory effect can be seen with oestradiol concentrations as low as 10(-9) M. Although the concentrations needed to gain a calcium antagonistic influence on the basal current were much too high to explain a cardio-protective influence of oestrogens, the presence of oestrogen receptors in cardiac myocytes of all three species, together with the shift in concentration dependence following pre-stimulation by isoprenaline, suggest that myocytes are a potential target for oestrogen.
