BACKGROUND: Aging-associated nitro-oxidative stress causes tissue injury and activates proinflammatory pathways that play an important role in the pathogenesis of aging-associated cardiovascular dysfunction. It has been recently reported, that the copper(II)-aspirinate complex (CuAsp) exerts not only the well-known anti-inflammatory and platelet antiaggregating effects of aspirin, but, due to its superoxide dismutase mimetic activity, it acts as a potent antioxidant as well. In this study we investigated the effects of CuAsp on aging-associated myocardial and endothelial dysfunction. METHODS AND RESULTS: Aging and young rats were treated for 3 weeks with vehicle, or with CuAsp (200 mg/kg per day per os). Left ventricular pressure-volume relations were measured by using a microtip pressure-volume conductance catheter, and indexes of contractility (e.g., slope of end-systolic pressure-volume relationships [ESPVR] [E(es)], and dP/dt(max) - end-diastolic volume [EDV]) were calculated. In organ bath experiments for isometric tension with isolated aortic rings, endothelium-dependent and -independent vasorelaxation were investigated by using acetylcholine and sodium nitroprusside. When compared to the young controls, aging rats showed impaired left ventricular contractility (E(es), 0.51 +/- 0.04 vs. 2.16 +/- 0.28 mmHg/microL; dP/dt(max) - EDV, 10.71 +/- 2.02 vs. 37.23 +/- 4.18 mmHg/sec per microL; p < 0.05) and a marked endothelial dysfunction (maximal relaxation to acetylcholine: 66.66 +/- 1.30 vs. 87.09 +/- 1.35%; p < 0.05). Treatment with CuAsp resulted in reduced nitro-oxidative stress, improved cardiac function (E(es), 1.21 +/- 0.17 vs. 0.51 +/- 0.04 mmHg/microL; dP/dt(max) - EDV, 23.40 +/- 3.34 vs. 10.71 +/- 2.02 mmHg/sec per microL; p < 0.05) and higher vasorelaxation to acetylcholine in aging animals (94.83 +/- 0.73 vs. 66.66 +/- 1.30%; p < 0.05). The treatment did not influence the cardiovascular functions of young rats. CONCLUSIONS: Our results demonstrate that oxidative stress and inflammatory pathways contribute to the pathogenesis of cardiovascular dysfunction in the aging organism, which can be reversed by CuAsp.
BACKGROUND: Aging-associated nitro-oxidative stress causes tissue injury and activates proinflammatory pathways that play an important role in the pathogenesis of aging-associated cardiovascular dysfunction. It has been recently reported, that the copper(II)-aspirinate complex (CuAsp) exerts not only the well-known anti-inflammatory and platelet antiaggregating effects of aspirin, but, due to its superoxide dismutase mimetic activity, it acts as a potent antioxidant as well. In this study we investigated the effects of CuAsp on aging-associated myocardial and endothelial dysfunction. METHODS AND RESULTS: Aging and young rats were treated for 3 weeks with vehicle, or with CuAsp (200 mg/kg per day per os). Left ventricular pressure-volume relations were measured by using a microtip pressure-volume conductance catheter, and indexes of contractility (e.g., slope of end-systolic pressure-volume relationships [ESPVR] [E(es)], and dP/dt(max) - end-diastolic volume [EDV]) were calculated. In organ bath experiments for isometric tension with isolated aortic rings, endothelium-dependent and -independent vasorelaxation were investigated by using acetylcholine and sodium nitroprusside. When compared to the young controls, aging rats showed impaired left ventricular contractility (E(es), 0.51 +/- 0.04 vs. 2.16 +/- 0.28 mmHg/microL; dP/dt(max) - EDV, 10.71 +/- 2.02 vs. 37.23 +/- 4.18 mmHg/sec per microL; p < 0.05) and a marked endothelial dysfunction (maximal relaxation to acetylcholine: 66.66 +/- 1.30 vs. 87.09 +/- 1.35%; p < 0.05). Treatment with CuAsp resulted in reduced nitro-oxidative stress, improved cardiac function (E(es), 1.21 +/- 0.17 vs. 0.51 +/- 0.04 mmHg/microL; dP/dt(max) - EDV, 23.40 +/- 3.34 vs. 10.71 +/- 2.02 mmHg/sec per microL; p < 0.05) and higher vasorelaxation to acetylcholine in aging animals (94.83 +/- 0.73 vs. 66.66 +/- 1.30%; p < 0.05). The treatment did not influence the cardiovascular functions of young rats. CONCLUSIONS: Our results demonstrate that oxidative stress and inflammatory pathways contribute to the pathogenesis of cardiovascular dysfunction in the aging organism, which can be reversed by CuAsp.
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