Cardiac Mitochondrial Oxidative Capacity is Partly Preserved After Cryopreservation with Dimethyl Sulfoxide

BACKGROUND: Cardiac muscle cryopreservation is a challenge for both diagnostic procedure requiring viable tissues and therapeutic advance in regenerative medicine. Mitochondria are targets of both direct and indirect damages, secondary to congelation per se and/or to cryoprotectant's toxic effects, which participate to diminution of viability and/or functioning of cells after freezing. At the cardiac muscle level, only one study had investigated mitochondrial respiration after cryopreservation. OBJECTIVE: To determine the effect of cryopreservation on mitochondrial respiration of cardiac muscle. MATERIALS AND TMETHODS: We recorded mitochondrial respiration through complexes I, II, III and IV along with mitochondrial coupling in fresh and cryopreserved rat left ventricles samples and assessed difference of the means, correlation and agreement between the measures in all samples. RESULTS: Mitochondrial respiration was partly maintained up to 70% in cryopreserved samples whatever the substrate. A significant correlation was observed between fresh and cryopreserved samples (r = 0.71, p<0.0001). However, mitochondrial coupling significantly decreased after cryopreservation (- 1.44 ± 0.15; p <0.005) suggesting that mitochondrial intactness was not totally preserved by cryopreservation. Further, the fluctuations around the mean difference were wide (-14.06, +5.08 μmol/min/g), increasing with respiration rates (p <0.0001). CONCLUSION: Thus, fresh samples extemporaneous analysis should be preferred when available despite the fact that cryopreservation using DMSO partly protect cardiac mitochondrial respiration and coupling. These data support the interest to further refine cryopreservation methods.