The effect of carvedilol on enhanced ADP-ribosylation and red blood cell membrane damage caused by free radicals

T Habon, E Szabados, G Kesmarky… - Cardiovascular …, 2001 - academic.oup.com
Cardiovascular research, 2001academic.oup.com
Objective: Previous studies have reported that the beta and alpha adrenoceptor blocker
carvedilol has unique protective effects on free radical-induced myocardial injury. The aim of
this study was to examine how carvedilol regulates reactive-oxygen-species-mediated
signaling and decreases red blood cell membrane damage in heart perfusion and in a
rheological model. Methods: The ischemia–reperfusion-induced oxidative cell damage, and
changes in the intracellular signaling mediated by reactive oxygen species and peroxynitrite …
Abstract
Objective: Previous studies have reported that the beta and alpha adrenoceptor blocker carvedilol has unique protective effects on free radical-induced myocardial injury. The aim of this study was to examine how carvedilol regulates reactive-oxygen-species-mediated signaling and decreases red blood cell membrane damage in heart perfusion and in a rheological model. Methods: The ischemia–reperfusion-induced oxidative cell damage, and changes in the intracellular signaling mediated by reactive oxygen species and peroxynitrite were studied on rat hearts in a Langendorff perfusion system (n=15). The effect of carvedilol on red blood cell suspension viscosity (hematocrit: 60%) incubated with free radical generator (phenazine methosulphate) was also investigated (n=10). The measurements were performed on a capillary viscosimeter. Results: In both studies a protective effect of carvedilol was found, as the decrease of red blood cell suspension viscosity and K+ concentration in the supernatant indicated. Carvedilol significantly decreased the ischemia–reperfusion-induced free radical production and the NAD+ catabolism and reversed the poly- and mono(ADP-ribosyl)ation. Carvedilol also decreased the lipid peroxidation and membrane damages as determined by free malondialdehyde production and the release of intracellular enzymes. The self ADP-ribosylation of isolated poly(ADP-ribose) polymerase was also significantly inhibited by carvedilol. Conclusion: Our results show that carvedilol can modulate the reactive-oxygen-species-induced signaling through poly- and mono(ADP-ribosyl)ation reactions, the NAD+ catabolism in postischemic perfused hearts and has a marked scavenger effect on free radical generator-induced red blood cell membrane damage. All these findings may play an important role in the beneficial effects of carvedilol treatment in different cardiovascular diseases.
Oxford University Press
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