Direct evidence that oxygen-derived free radicals contribute to postischemic myocardial dysfunction in the intact dog

Electron paramagnetic resonance (EPR) spectroscopy was used to investigate whether (i) the free radicals produced in the ``stunned'' myocardium (myocardium with postischemic contractile dysfunction) are derived from O2, (ii) inhibition of radical reactions improves function, and (iii) i.v....

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 1989-06, Vol.86 (12), p.4695-4699
Main Authors: Bolli, R, Jeroudi, M.O, Patel, B.S, DuBose, C.M, Lai, E.K, Roberts, R, McCay, P.B
Format: Article
Language:English
Subjects:
Adducts
Animals
Blood plasma
Blood Pressure
CARDIOPATHIE
CHIEN
Coronary Circulation
Coronary Disease - physiopathology
DOGS
Electron Spin Resonance Spectroscopy
ENFERMEDADES CARDIACAS
Enzymes
Free radicals
FUNCTIONAL DISORDERS
HEART DISEASES
Heart Rate
Hemodynamics
Ischemia
Kinetics
METABOLITE
METABOLITES
METABOLITOS
Myocardial Reperfusion
Myocardial stunning
OXIGENO
OXYGEN
OXYGENE
PATHOGENESE
PATHOGENESIS
PATOGENESIS
PERRO
Reactive oxygen species
Reference Values
Superoxides
Systole
TRASTORNOS FUNCIONALES
TROUBLE FONCTIONNEL
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Summary:Electron paramagnetic resonance (EPR) spectroscopy was used to investigate whether (i) the free radicals produced in the ``stunned'' myocardium (myocardium with postischemic contractile dysfunction) are derived from O2, (ii) inhibition of radical reactions improves function, and (iii) i.v. spin traps are effective. Open-chest dogs undergoing a 15-min coronary occlusion received an i.v. infusion of the spin trap, α -phenyl N-tert-butylnitrone (PBN) (50 mg/kg). In group I (n = 6), EPR signals characteristic of radical adducts of PBN appeared in the coronary venous blood during ischemia and increased dramatically after reperfusion. In group II (n = 6), which received PBN and i.v. superoxide dismutase (SOD; 16,000 units/kg) plus catalase (12,000 units/kg), myocardial production of PBN adducts was undetectable during ischemia (Δ = -100%, P < 0.01 vs. group I) and markedly inhibited after reperfusion (Δ = -86%, P < 0.001). This effect was seen at all levels of ischemic zone flow but was relatively greater in the low-flow range. In group III (n = 8), the same dosages of SOD and catalase without PBN markedly enhanced contractile recovery (measured as systolic wall thickening) after reperfusion [P < 0.01 at 3 hr vs. controls (group IV, n = 7)]. Systemic plasma activity of SOD and catalase averaged 127 ± 24 and 123 ± 82 units/ml, respectively, 2 min after reperfusion. PBN produced no apparent adverse effects and actually improved postischemic contractile recovery in group I (P < 0.05 at 3 hr vs. controls). This study shows that (i) SOD and catalase are highly effective in blocking free radical reactions in vivo, (ii) the radicals generated in the ``stunned'' myocardium are derived from univalent reduction of O2, and (iii) inhibition of radical reactions improves functional recovery. The results provide direct, in vivo evidence to support the hypothesis that reactive oxygen metabolites play a causal role in the myocardial ``stunning'' seen after brief ischemia.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.86.12.4695