Inhibition of Mitochondrial Permeability Transition Pores by Cyclosporine A Improves Cytochrome c Oxidase Function and Increases Rate of ATP Synthesis in Failing Cardiomyocytes

Background: We previously showed that mitochondrial respiratory function is abnormal in dogs with chronic heart failure (HF). Mitochondrial permeability transition pores (MPTP) can affect mitochondrial inner membrane potential (Δ < eqid1 > _m) and mitochondrial function in normal cardiomyocytes. The potential impact of MPTP on Δ < eqid2 > _m and mitochondrial respiratory function in HF has not yet been determined. We tested the hypothesis that cyclosporine A, a potent blocker of the MPTP, can improve mitochondrial function in HF. Methods: Cardiomyocytes were isolated from the left ventricular myocardium of 7 dogs with HF produced by intracoronary microembolizations and from 7 normal dogs. Cardiomyocytes were treated for 24 hours with cyclosporine A. Δ < eqid3 > _m, cytochrome c oxidase protein expression, mitochondrial cytochrome c oxidase-dependent respiration (CDOR) and ATP synthesis were measured. Results: Δ < eqid4 > _m, protein expression of cytochrome c oxidase, CDOR and the rate of ATP synthesis were decreased in HF compared to normal controls. Inhibition of MPTP in failing cardiomyocytes with low dose of cyclosporine A (0.2 μM) increased Δ < eqid5 > _m, preserved expression of cytochrome c oxidase, improved CDOR and the rate of ATP synthesis. Conclusion: MPTP opening contributes to the loss of mitochondrial function observed in the failing heart. Inhibition of MPTP opening represents a potential therapeutic target for the treatment of HF. This study was supported by a grant from the National Heart, Lung, and Blood Institute PO1 HL074237-01.