Abstract
Objectives Coronary reperfusion procedure leads to ischemia/reperfusion injury of the heart (IRI). IRI arises from increased degradation of myosin light chains and increased activity of matrix metalloproteinase 2 (MMP-2). Increased production of toxic peroxynitrite (ONOO−) during oxidative stress is a source of increased nitration/nitrosylation of contractile proteins, which enhance their degradation through MMP-2. Hence, an imbalance in nitric oxide (NO) metabolism along with oxidative stress is an important factor contributing to pathophysiology of cardiovascular disorders, including myocardial infarction. The aim of the current study was to provide an important insight into understanding the interaction of iNOS, eNOS, and ADMA during oxidative stress and to propose the beneficial therapy to modulate this interaction. Material and Methods. Pathogen-free Wistar rats were used in this study as a surrogate heart model ex vivo. Rat hearts perfused using the Langendorff method were subjected to global no-flow ischemia with or without administration of DOXY (1 µM), ML-7 (0.5 µM), and L-NAME (2 µM) mixture. Haemodynamic parameters of heart function, markers of I/R injury, tissue expression of iNOS, eNOS, and phospho-eNOS, asymmetric dimethylarginine, and NO production as well as MMP-2 activity were measured. Results Mechanical heart function and coronary flow (CF) were decreased in the hearts subjected to I/R. Treatment of the hearts with the tested mixture resulted in a recovery of mechanical function due to decreased activity of MMP‐2. An infusion of Doxy, ML-7, and L-NAME mixture into I/R hearts decreased the expression of iNOS, eNOS, and phospho-eNOS and in consequence reduced ADMA expression. Decreased ADMA production led to enhanced NO synthesis and improvement of cardiac function at 85% of aerobic control. Conclusions Synergistic effect of the multidrug therapy with the subthreshold doses allows addressing a few pathways of I/R injury simultaneously to achieve protection of cardiac function during I/R.
Highlights
Coronary reperfusion is a standard procedure for the treatment of patients with myocardial infarction [1]
An imbalance in nitric oxide (NO) metabolism along with oxidative stress is an important factor contributing to pathophysiology of cardiovascular disorders, including myocardial infarction. e aim of the current study was to provide an important insight into understanding the interaction of iNOS, eNOS, and asymmetric dimethylarginine (ADMA) during oxidative stress and to propose the beneficial therapy to modulate this interaction
NO is synthesized from L-arginine through a complex oxidation reaction catalyzed by NO synthase (NOS) and plays an important role in cardiovascular homeostasis. e levels and bioactivity of NO are regulated by eNOS, nNOS, and iNOS as well as endogenous NOS inhibitors such as asymmetric dimethylarginine (ADMA) [6]
Summary
Coronary reperfusion is a standard procedure for the treatment of patients with myocardial infarction [1]. Subsequently, it leads to ischemia/reperfusion injury (IRI), resulting in a cascade of processes detrimental to cardiac tissue. Oxidative stress during IRI triggers the increased expression of iNOS and subsequent production of very potent ONOO− (peroxynitrite) which promote cell damage [7]. CVD (cardiovascular disease) is associated with increased iNOS and with an increase in eNOS expression [6].
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