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活性氧和氮物种对神经元型一氧化氮合酶功能的剂量依赖性影响。

Dose dependent effects of reactive oxygen and nitrogen species on the function of neuronal nitric oxide synthase.

作者信息

Sun Jian, Druhan Lawrence J, Zweier Jay L

机构信息

Davis Heart and Lung Research Institute, Division of Cardiovascular Medicine, Department of Internal Medicine, College of Medicine, Ohio State University, 473 West 12th Avenue, Suite 110 G, Columbus, OH 43210-1252, USA.

出版信息

Arch Biochem Biophys. 2008 Mar 15;471(2):126-33. doi: 10.1016/j.abb.2008.01.003. Epub 2008 Jan 11.

DOI:10.1016/j.abb.2008.01.003
PMID:18201545
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4073612/
Abstract

Reactive nitrogen species (RNS) and oxygen species (ROS) have been reported to modulate the function of nitric oxide synthase (NOS); however, the precise dose-dependent effects of specific RNS and ROS on NOS function are unknown. Questions remain unanswered regarding whether pathophysiological levels of RNS and ROS alter NOS function, and if this alteration is reversible. We measured the effects of peroxynitrite (ONOO-), superoxide (O2.-), hydroxyl radical (.OH), and H2O2 on nNOS activity. The results showed that NO production was inhibited in a dose-dependent manner by all four oxidants, but only O2.- and ONOO- were inhibitory at pathophysiological concentrations (50muM). Subsequent addition of tetrahydrobiopterin (BH4) fully restored activity after O2.- exposure, while BH4 partially rescued the activity decrease induced by the other three oxidants. Furthermore, treatment with either ONOO- or O2.- stimulated nNOS uncoupling with decreased NO and enhanced O2.- generation. Thus, nNOS is reversibly uncoupled by O2.- (50muM), but irreversibly uncoupled and inactivated by ONOO-. Additionally, we observed that the mechanism by which oxidative stress alters nNOS activity involves not only BH4 oxidation, but also nNOS monomerization as well as possible degradation of the heme.

摘要

据报道,活性氮物质(RNS)和活性氧物质(ROS)可调节一氧化氮合酶(NOS)的功能;然而,特定RNS和ROS对NOS功能的精确剂量依赖性效应尚不清楚。关于RNS和ROS的病理生理水平是否会改变NOS功能,以及这种改变是否可逆,这些问题仍未得到解答。我们测量了过氧亚硝酸盐(ONOO-)、超氧阴离子(O2.-)、羟基自由基(.OH)和过氧化氢(H2O2)对nNOS活性的影响。结果表明,所有四种氧化剂均以剂量依赖性方式抑制NO生成,但只有O2.-和ONOO-在病理生理浓度(50μM)时具有抑制作用。在暴露于O2.-后,随后添加四氢生物蝶呤(BH4)可完全恢复活性,而BH4可部分挽救其他三种氧化剂诱导的活性降低。此外,用ONOO-或O2.-处理会刺激nNOS解偶联,导致NO生成减少和O2.-生成增加。因此,nNOS可被O2.-(50μM)可逆性解偶联,但被ONOO-不可逆性解偶联并失活。此外,我们观察到氧化应激改变nNOS活性的机制不仅涉及BH4氧化,还涉及nNOS单体化以及血红素可能的降解。

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