Effect of Cumulative Zinc Doses on Papillary Muscle Contractions and the Zinc Finger Protein ZEB1

Abstract

In this study, we aimed to investigate the effects of cumulative doses of Zn2+ (by exposing samples to 1 mu M, 10 mu M, and 100 mu M ZnCl2) on myocardial papillary muscle contractions isolated from rat hearts in vitro and the roles of the zinc finger protein ZEB1 in this effect. In these preparations, 100 mu M ZnCl2 application in different protocols caused a decrease in contraction force and an increase in contraction time in both frequency-dependent parameters and pre-expected stimuli when compared to the control group. Our study data show that Ca2+ homeostasis is closely related to increasing Zn2+ doses (especially at 100 mu M ZnCl2 dose). Secondly, the levels of ZEB1, a zinc finger protein, were also significantly lower in the 100 mu M ZnCl2 group compared to the other groups, which seems to be related to the increase in Ca2+ that triggers ROS production at high doses of Zn2+. The data of our study, which we conducted to understand the Zn2+ concentrations in the heart and to reveal new mechanisms that play a role in the regulation of Ca2+ dynamics in heart tissue and is the first research in the literature on this subject, show that in vitro zinc application may have a dose-dependent effect on myocardial papillary muscle contractions.