Mitochondrial function during ischemic preconditioning

Mitochondrial function during ischemic preconditioning

Background. Ischemic preconditioning (IPC) protects the myocardium from ischemia reperfusion injury. The effect of IPC on the mitochondria is not well known. However, one of the mechanisms postulated in IPC (the opening of the mitochondrial KATP channels) is likely to result in changes in mitochondr...

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Bibliographic Details
Published in:Surgery Vol. 131; no. 2; pp. 172 - 178
Main Authors: Crestanello, Juan A., Doliba, Nicolai M., Babsky, Andriy M., Doliba, Natalia M., Niibori, Koki, Osbakken, Mary D., Whitman, Glenn J.R.
Format: Journal Article
Language:English
Published: New York, NY Mosby, Inc 01-02-2002
Elsevier
Subjects:
Adenosine Triphosphate - metabolism
Animals
Biological and medical sciences
Calcium - metabolism
Cardiology. Vascular system
Coronary heart disease
Heart
Ischemic Preconditioning, Myocardial
Male
Medical sciences
Mitochondria, Heart - physiology
Myocardial Reperfusion Injury - prevention & control
Oxygen Consumption
Rats
Rats, Sprague-Dawley
Rat
Rodentia
Cardiovascular disease
Experimental study
Coronary heart disease
Myocardial disease
Vascular disease
Vertebrata
Mitochondria
Mammalia
Reperfusion
Ischemia
Animal
Myocardium
Biological effect
Preconditioning
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Summary:Background. Ischemic preconditioning (IPC) protects the myocardium from ischemia reperfusion injury. The effect of IPC on the mitochondria is not well known. However, one of the mechanisms postulated in IPC (the opening of the mitochondrial KATP channels) is likely to result in changes in mitochondrial function. Therefore, the purpose of this study was to determine the effect of IPC on mitochondrial function during ischemia reperfusion. Methods. Isolated rat hearts (n = 6/group) were subjected to (1) 30 minutes of equilibration, 25 minutes of ischemia, and 30 minutes of reperfusion (RP) (control group) or (2) 10 minutes of equilibration, two-5 minute episodes of IPC (each followed by 5 minutes of re-equilibration), 25 minutes of ischemia, and 30 minutes of RP (IPC group). Left ventricular rate pressure product (RPP) was measured. At end-equilibration (end-EQ) and at end-reperfusion (end-RP) mitochondria were isolated. Mitochondrial respiratory function (state 2, 3, and 4), respiratory control index (RCI), rate of oxidative phosphorylation (ADP/Δt), and ADP:O ratio were measured by polarography with the use of NADH- or FADH-dependent substrates. Results. IPC improved recovery of RPP at end-RP (72% ± 5% in IPC vs 30% ± 4% in control, P <.05). Ischemia reperfusion (IR) decreased state 3, ADP/Δt, and RCI in both groups compared with end-EQ. IPC improved state 3 (47 ± 3 in IPC vs 37 ± 2 ng-atoms O/min/mg protein in control), ADP/Δt (17 ± 1 in IPC vs 13 ± 1 nmol/s/mg protein in control), and RCI (3.7 ± 0.1 in IPC vs 2.1 ± 0.2 in control) at end-RP compared with control with the use of NADH-dependent substrate (P <.05 vs control). IPC also improved state 3 (85 ± 6 in IPC vs 71 ± 4 ng-atoms O/min/mg protein in control), ADP/Δt (18 ± 2 in IPC vs 12 ± 1 nmol/s/mg protein in control), RCI (2 ± 0.1 in IPC vs 1.5 ± 0.1 in control), and ADP:O ratios (1.4 ± 0.04 in IPC vs 1.7 ± 0.09 in control) at end-RP compared with control with the use of FADH-dependent substrate (P <.05 vs control). Conclusions. The cardioprotective effects of IPC can be attributed at least in part to the preservation of mitochondrial function during reperfusion. (Surgery 2002;131:172-8.)
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content type line 23
ISSN:0039-6060
1532-7361
DOI:10.1067/msy.2002.119490