Inhibition of Endogenous Nitric Oxide Synthase Augments Contractile Response to Adenylyl Cyclase Stimulation Without Altering Mechanical Efficiency in Patients With Idiopathic Dilated Cardiomyopathy

Ohta, Soichiro; Shinke, Toshiro; Hata, Katsuya; Takaoka, Hideyuki; Shite, Junya; Kijima, Yasufumi; Murata, Takeomi; Yoshikawa, Ryohei; Masai, Hiroyuki; Hirata, Ken‐ichi; Yokoyama, Mitsuhiro

doi:10.1253/circj.71.1268

Cited by 3 publications

(3 citation statements)

References 37 publications

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“…Cardiomyocyte-specific eNOS overexpression improved LV performance and remodeling after infarction, suggesting that strategies to increase eNOS-derived NO production might provide promising treatments to improve LV remodeling and function in the failing heart [17]–[20]. In the present study, we showed that the ventricular remodeling process after MI was associated with increased eNOS production from the non-infarcted myocardium and demonstrated that eNOS gene transfection attenuated the remodeling and preserved cardiac function in a rat model of MI.…”

Section: Discussionsupporting

confidence: 58%

Inhibition of TGF-β1 by eNOS gene transfer provides cardiac protection after myocardial infarction

Qin

Chen

Liu

2010

Journal of Biomedical Research

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ObjectiveEndothelial nitric oxide synthase (eNOS) and nitric oxide (NO) have been implicated in protection against myocardial ischemia injury. This study was designed to explore a new method of therapy for myocardial injury by eNOS gene transfection.MethodsA rat model of myocardial infarction (MI) was established by left anterior descending (LAD) coronary artery ligation. eNOS gene in an adenovirus vector was delivered locally into the rat heart and hemodynamic parameters were examined after 3 weeks, Matrix metalloproteinase-2 and 9 (MMP-2, MMP-9) mRNA were measured by reverse transcription polymerase chain reaction (RT-PCR), and the protein levels of eNOS, caspase-3, and transforming grouth factor β1 (TGF-β1) were determined by western blot assay.ResultseNOS gene transfer significantly reduced cardiomyocyte apoptosis and improved cardiac function. In addition, eNOS significantly reduced the mRNA levels of MMP-2 and MMP-9. In the eNOS gene transfected group, the activation of caspase-3 and TGF-β1 were decreased. However, the protection was reversed by administration of the NOS inhibitor, N(ω)-nitro-l-arginine methyl ester (L-NAME).ConclusionThese results demonstrate that the eNOS provides cardiac protection after myocardial infarction injury through inhibition of cardiac apoptosis and collagen deposition, and suppression of TGF-β1.

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Section: Discussionsupporting

confidence: 58%

Inhibition of TGF-β1 by eNOS gene transfer provides cardiac protection after myocardial infarction

Qin

Chen

Liu

2010

Journal of Biomedical Research

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“…29,30 Consequently, NO decreases cardiac pressure overload, attenuates cardiac hypertrophy, and retards progression of heart failure. We previously reported that overexpression of eNOS attenuated cardiac hypertrophy induced by chronic isoproterenol infusion.…”

Section: Discussionmentioning

confidence: 99%

Beneficial Effects of Exogenous Tetrahydrobiopterin on Left Ventricular Remodeling After Myocardial Infarction in Rats The Possible Role of Oxidative Stress Caused by Uncoupled Endothelial Nitric Oxide Synthase

Masano

Kawashima

Toh

et al. 2008

Circ J

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eleterious left ventricular (LV) remodeling after myocardial infarction (MI) is the major cause of heart failure. Although therapeutic strategies designed to limit ventricular remodeling after MI can decrease the incidence of congestive heart failure and improve survival, 1 mechanisms of remodeling process remain not fully elucidated. At the cellular level, reactive oxygen species (ROS) and oxidative stress play a key role in regulating myocardial remodeling. 2,3 In the stressed heart, there is an increase in the production of superoxide from multiple sources such as mitochondria, 4 NADPH oxidase, 5 xanthine oxidase, 6 and nitric oxide (NO) synthase. 7,8 NO is a diffusible highly reactive gas formed by 3 NO synthase (NOS) isoforms: neuronal NOS (nNOS), inducible NOS (iNOS), and endothelial NOS (eNOS). The eNOS-derived NO serves to promote vascular homeostasis and might affect cardiac myocyte function. 9 However, NOS itself can generate superoxide under certain pathological conditions. 10 We have reported that transgenic overexpression of eNOS in apolipoprotein E knockout mice paradoxically increased vascular superoxide production because of enzymatic uncoupling of eNOS. 11 These findings could be explained by relative deficiency of the reducing cofactor of eNOS, tetrahydrobiopterin (BH4). BH4 plays a crucial role in facilitating electron transfer from eNOS reductase domain, maintaining the heme prosthetic group in its redox active form, and promoting formation of active NOS homodimer. Therefore, a relative lack of BH4 results in increased superoxide production by promoting eNOS uncoupling. 12,13 NO from eNOS was shown to protect the heart from various stimuli. Previous studies have shown that cardiac remodeling after MI was attenuated in transgenic mice overexpressing eNOS, 14,15 but deteriorated in mice deficient of the eNOS gene (eNOS KO mice). 16 Similarly, pressure overload-induced LV remodeling was exacerbated in eNOS KO mice. 17,18 Takimoto et al investigated the role of eNOS in the LV remodeling induced by transverse aortic constric- Background Reactive oxygen species (ROS) is deeply involved in the process of ventricular remodeling after myocardial infarction (MI). Under oxidative stress, endothelial nitric oxide synthase (eNOS) can be converted to a ROS generator, because a relative lack of tetrahydrobiopterin (BH4), an essential cofactor for NO synthesis, leads to eNOS uncoupling. The uncoupled eNOS generates superoxide rather than NO. The possible role of ROS generated by eNOS in ventricular remodeling after MI was investigated. Methods and ResultsRats were treated with oral BH4 supplementation starting at 3 days before coronary artery ligation. At 4 weeks after MI, there was augmented superoxide production in association with reduced BH4/dihydrobiopterin (BH2) ratio and eNOS dimer/monomer protein ratio in the heart. Treatment with BH4 increased BH4/BH2 ratio and eNOS dimer/monomer ratio, and decreased superoxide production. In BH4-treated MI rats, left ventricular size was smaller, thickness of the n...

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“…Thus, colforsin is expected to increase cardiac output by increasing ventricular contractility, as well as by decreasing both venous and arterial tones (i.e., preload and afterload). Indeed, colforsin is considered for the treatment of acute heart failure in a clinical setting [14][15][16]. However, although colforsin was shown to attenuate PH in previous animal studies [17], its clinical usefulness in the treatment of PH is yet to be established.…”

Section: Introductionmentioning

confidence: 99%

Colforsin-induced vasodilation in chronic hypoxic pulmonary hypertension in rats

et al. 2010

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cAMP-mediated vasodilatory responses without beta-adrenergic receptor activation are impaired in structurally remodeled pulmonary arteries from PH rats. In these arteries, endothelial cells presumably play a compensatory role against the impaired cAMP-mediated vasodilatory response by releasing NO (and thereby attenuating the impairment). The results suggest that colforsin could be effective in the treatment of PH.

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Inhibition of Endogenous Nitric Oxide Synthase Augments Contractile Response to Adenylyl Cyclase Stimulation Without Altering Mechanical Efficiency in Patients With Idiopathic Dilated Cardiomyopathy

Cited by 3 publications

References 37 publications

Inhibition of TGF-β1 by eNOS gene transfer provides cardiac protection after myocardial infarction

Inhibition of TGF-β1 by eNOS gene transfer provides cardiac protection after myocardial infarction

Beneficial Effects of Exogenous Tetrahydrobiopterin on Left Ventricular Remodeling After Myocardial Infarction in Rats The Possible Role of Oxidative Stress Caused by Uncoupled Endothelial Nitric Oxide Synthase

Colforsin-induced vasodilation in chronic hypoxic pulmonary hypertension in rats

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