Abstract
Mitochondrial permeability transition pore (mPTP) opening is a critical event leading to cell injury during myocardial ischemia-reperfusion but having a reliable cellular model to study the effect of drugs targeting mPTP is an unmet need. This study evaluated whether the Ca2+ electrogenic ionophore ferutinin is a relevant tool to induce mPTP in cardiomyocytes. mPTP opening was monitored using the calcein/cobalt fluorescence technique in adult cardiomyocytes isolated from wild-type and cyclophylin D (CypD) knock-out mice. Concomitantly, the effect of ferutinin was assessed in isolated myocardial mitochondria. Our results confirmed the Ca2+ ionophoric effect of ferutinin in isolated mitochondria and cardiomyocytes. Ferutinin induced all the hallmarks of mPTP opening in cells (loss of calcein, of mitochondrial potential and cell death) but none of them could be inhibited by CypD deletion or cyclosporine A, indicating that mPTP opening was not the major contributor to the effect of fe rutinin. This was confirmed in isolated mitochondria where ferutinin acts by different mechanisms dependent and independent of the mitochondrial membrane potential. At low ferutinin/mitochondria concentration ratio, ferutinin displays protonophoric-like properties, lowering the mitochondrial membrane potential and limiting oxidative phosphorylation without mitochondrial swelling. At high ferutinin/mitochondria ratio, ferutinin induced a sudden Ca2+ independent mitochondrial swelling, which is only partially inhibited by cyclosporine A. Together, these result show that ferutinin is not a suitable tool to investigate CypD-dependent mPTP opening in isolated cardiomyocytes because it possesses other mitochondrial properties such as swelling induction and mitochondrial uncoupling properties which impede its utilization.
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