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Ischemic preconditioning modulates mitochondrial respiration, irrespective of the employed signal transduction pathway

We tested in the in vivo rat heart the hypothesis that although ischemic preconditioning can employ different signal transduction pathways, these pathways converge ultimately at the level of the mitochondrial respiratory chain. Infarct size produced by a 60-min coronary artery occlusion (69% ± 2% of...

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Bibliographic Details
Published in:Translational research : the journal of laboratory and clinical medicine 2008, Vol.151 (1), p.17-26
Main Authors: Liem, David A, Manintveld, Olivier C, Schoonderwoerd, Kees, McFalls, Edward O, Heinen, Andre, Verdouw, Pieter D, Sluiter, Wim, Duncker, Dirk J
Format: Article
Language:English
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Summary:We tested in the in vivo rat heart the hypothesis that although ischemic preconditioning can employ different signal transduction pathways, these pathways converge ultimately at the level of the mitochondrial respiratory chain. Infarct size produced by a 60-min coronary artery occlusion (69% ± 2% of the area at risk) was limited by a preceding 15-min coronary occlusion (48% ± 4%). Cardioprotection by this stimulus was triggered by adenosine receptor stimulation, which was followed by protein kinase C and tyrosine kinase activation and then mitochondrial K+ATP -channel opening. In contrast, cardioprotection by 3 cycles of 3-min coronary occlusions (infarct size 27% ± 5% of the area at risk) involved the release of reactive oxygen species, which was followed by protein kinase C and tyrosine kinase activation, but was independent of adenosine receptor stimulation and K+ATP -channel activation. However, both pathways decreased respiratory control index (RCI; state-3/state-2, using succinate as complex-II substrate) from 3.1 ± 0.2 in mitochondria from sham-treated hearts to 2.4 ± 0.2 and 2.5 ± 0.1 in hearts subjected to a single 15-min and triple 3-min coronary occlusions, respectively (both P < 0.05). The decreases in RCI were due to an increase in state-2 respiration, whereas state-3 respiration was unchanged. Abolition of cardioprotection by blockade of either signal transduction pathway was paralleled by a concomitant abolition of mitochondrial uncoupling. These observations are consistent with the concept that mild mitochondrial uncoupling contributes to infarct size limitation by various ischemic preconditioning stimuli, despite using different signal transduction pathways. In conclusion, in the in vivo rat heart, different ischemic preconditioning (IPC) stimuli can activate highly different signal transduction pathways, which seem to converge at the level of the mitochondria where they increase state-2 respiration.
ISSN:1931-5244
1878-1810
DOI:10.1016/j.trsl.2007.09.007