Korean Circ J.  1991 Dec;21(6):1137-1151. 10.4070/kcj.1991.21.6.1137.

Production of Superoxide Anion and Damage of Mitochondria Isolated from Ischemic Repertused Heart

Abstract

BACKGROUND
Oxygen free radicals have been implicated as a cause of deleterious effects in the setting of coronary reperfusion, and they are believed to be generated by the xanthine oxidase system, from activated neutrophiles and from mitochondria. We evaluate the contribution of mitochondria to the production of oxygen free radicals and clarify the mechanism of cellular damage in ischemic reperfused hearts.
METHODS
Mitochondria isolated from the ischemic rabbit hearts were incubated in the reaction conditions with different oxygen tensions. Generation of superoxide anion and activities of defensive enzymes aginst oxidative stress were mesured.
RESULTS
Superoxide anion genertion by mitochondria incubated in 21% oxygen condition were 0.54+/-0.09 and 0.27+/-0.04(O2./min/mg protein) in ischemic mitochondria and in control respectively(P<0.05). Activites of defensive enzymes against oxidative stress, superoxide dismutase and glutathione peroxidase, were significantly reduced in mitochondria isolated from either ischemic or reperfused hearts. With the lapse of respiration in 21% oxygen condition, ADP-stimulated state 3 oxygen consumption(306.4+/-31.5 vs 214.4+/-11.4n atoms O/min/mg protein) at 30 minutes, P : O ratio and phosphorylation rate were significantly decreased in ischemic mitochondria.
CONCLUSION
Elevation of oxygen free radical generation as well as the reduction of defensive enzyme activities in ischemic reperfused mitochondria are injurious to mitochondrial respiratory function. It may contribute to the mechanism of cellular damage in ischemic reperfused hearts.

Keyword

Superoxide anion; Mitochondria; Reperfused myocardium

MeSH Terms

Free Radicals
Glutathione Peroxidase
Heart*
Mitochondria*
Myocardial Reperfusion
Neutrophils
Oxidative Stress
Oxygen
Phosphorylation
Respiration
Superoxide Dismutase
Superoxides*
Xanthine Oxidase
Free Radicals
Glutathione Peroxidase
Oxygen
Superoxide Dismutase
Superoxides
Xanthine Oxidase
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