Mariannick Marcil scite author profile

The purpose of this study was to determine whether regular exercise (treadmill running, 10 wk) alters the susceptibility of rat isolated heart mitochondria to Ca(2+)-induced permeability transition pore (PTP) opening and whether this could be associated with changes in the modulation of PTP opening by selected physiological effectors. Basal leak-driven and ADP-stimulated respiration in the presence of substrates for complex I, II, and IV were not affected by training. Fluorimetric studies revealed that in the control and exercise-trained groups, the amount of Ca(2+) required to trigger PTP opening was greater in the presence of complex II vs. I substrates (230 +/- 12 vs. 134 +/- 7 nmol Ca(2+)/mg protein, P < 0.01; pooled average of control and trained groups). In addition, with a substrate feeding the complex II, training increased by 45% (P < 0.01) the amount of Ca(2+) required to trigger PTP opening both in the presence and absence of the PTP inhibitor cyclosporin A. However, membrane potential, reactive oxygen species production, NAD(P)H ratio, and Ca(2+) uptake kinetics were not different in mitochondria from both groups. Together, these results suggest the existence of a substrate-specific regulation of the PTP in heart mitochondria and suggest that regular exercise results in a reduced sensitivity to Ca(2+)-induced PTP opening in presence of complex II substrates.

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Compensated volume overload increases the vulnerability of heart mitochondria without affecting their functions in the absence of stress

Marcil

Ascah

Matas

et al. 2006

Journal of Molecular and Cellular Cardiology

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Increased expression and intramitochondrial translocation of cyclophilin-D associates with increased vulnerability of the permeability transition pore to stress-induced opening during compensated ventricular hypertrophy

Matas

Young

Bourcier-Lucas

et al. 2009

Journal of Molecular and Cellular Cardiology

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Early predictors of cardiac decompensation in experimental volume overload

et al. 2010

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In humans, volume overload (VOL) increases the risk of sudden cardiac death, but there is also important inter-individual variability, presumably because of differences in genetic backgrounds. Although VOL has rapid effects on myocardial properties, it is not known to which extent the severity of these early responses correlate with the effect of sustained VOL on mortality. In order to test this question, we induced VOL in male rats from two genetically distinct strains [i.e., Sprague-Dawley (SD) and Wistar Kyoto-derived Hyperactive (WKHA) rats] by creating a surgical aorto-caval fistula (ACF). Only 36% of SD rats remained alive after 39 weeks of ACF, in contrast to 82% of the operated WKHA rats. We also monitored myocardial hemodynamic function, mitochondrial properties, left ventricular (LV) morphology and LV wall diastolic properties at different times ranging from 2 to 12 weeks after either ACF or sham surgery. ACF had a rapid impact on the LV walls of both rat strains, but the only variables that were affected to a greater extent in the mortality-prone SD strain were normalized LV weight, LV cavity area, and myocardial wall stiffness. In contrast, there were only marginal strain-related differences in the way ACF affected hemodynamic and mitochondrial functions. Thus, while early morphologic responses of LV walls to ACF (along with their downstream consequences on myocardial diastolic wall stress) correlated well with strain-dependent differences in late mortality, other functional changes showed no predictive effects. Close monitoring of early changes in cardiac geometry (as well as new methods to analyze myocardial diastolic strain) might, therefore, be helpful to further improve risk stratification in humans with volume overload cardiopathies.

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