Iron, Nitric Oxide, and Myeloperoxidase in Asthmatic Patients

Plasma nitric oxide (NO), myeloperoxidase (MPO), and iron (Fe) levels were determined in bronchial asthma. The relations among these parameters in different stages of asthma were interpreted. Their association with airway inflammation observed in patients with bronchial asthma as well as the roles and the contributions to the pathological processes were evaluated. A total of 62 individuals, 32 asthmatics and 30 controls, were included into the scope of this study. Plasma nitric oxide metabolites (NOx) and MPO and Fe levels were determined by the Griess reaction, ELISA, and the automated TPTZ (2,4,6-tri[2-pyridyl]-5-triazine) method, respectively. In the asthmatic individuals, plasma NOx, MPO, and Fe concentrations were 133 +/- 13 microM, 95 +/- 20 ng/ml, and 159 +/- 20 microg/dl, respectively; in the control group these values were 82 +/- 11 microM, 62 +/- 11 ng/ml, and 96 +/- 9 microg/dl. Increased values were detected for plasma MPO (p > 0.05), NOx (p < 0.01), and Fe (p < 0.01) concentrations in asthmatic individuals. Considering the facts that NO modulates the catalytic activity of MPO and induces the expression of heme oxygenase as important contributors to the mechanisms causing free Fe release, it is concluded that elevated NOx, MPO, and Fe levels observed in the asthmatic group act in a concerted manner and appear to be involved in the pathogenesis of asthma.     

Endothelium-Derived Relaxing Factor: Discovery, Early Studies, and Identification as Nitric Oxide

The discovery, early studies and identification of endothelium-derived relaxing factor (EDRF) as nitric oxide, are described.     

Plant Haemoglobins,Nitric Oxide and Hypoxic Stress

It is now known that there are several classes of haemoglobins in plants. A specialized class of haemoglobins, symbiotic haemoglobins, were discovered 62 years ago and are found only in nodules of plants capable of symbiotic nitrogen fixation. Plant haemoglobins, with properties distinct from symbiotic haemoglobins were discovered 18 years ago and are now believed to exist throughout the plant kingdom. They are expressed in different organs and tissues of both dicot and monocot plants. They are induced by hypoxic stress and by oversupply of certain nutrients. Most recently, truncated haemoglobins have been shown to also exist in plants. While hypoxic stress‐induced haemoglobins are widespread in the plant kingdom, their function has not been elucidated. This review discusses the recent findings regarding the function of these haemoglobins in relation to adaptation to hypoxia in plants. We propose that nitric oxide is an important metabolite in hypoxic plant cells and that at least one of the functions of hypoxic stress‐induced haemoglobins is to modulate nitric oxide levels in the cell.     

α-Guanidinoglutaric Acid, an Endogenous Convulsant, as a Novel Nitric Oxide Synthase Inhibitor

Abstract: The effects of α-guanidinoglutaric acid (GGA), the levels of which were increased in the cobalt-induced epileptic focus tissue in the cerebral cortex of cats, on brain nitric oxide synthase (NOS) activity were observed. GGA inhibited NOS activity in a linear mixed manner ( K _i = 2.69 µ M ) and was as effective as N ^G-monomethyl- l -arginine (MeArg; K _i = 3.51 µ M ), a well-known NOS inhibitor. Although MeArg was synthesized by substituting the guanidino nitrogen of l -arginine (Arg), GGA was a non-guanidino nitrogen-substituted guanidino compound. On the other hand, Arg, which is an endogenous NOS substrate, elevates the threshold of seizures induced by GGA. There is evidence that GGA is an endogenous, potent, and non-guanidino nitrogen-substituted NOS inhibitor and that suppression of nitric oxide biosynthesis may be involved in GGA-induced convulsions. Therefore, GGA may be a useful tool in elucidating the chemical nature of NOS and the physiological function of nitric oxide.     

软体动物的一氧化氮及其合酶的研究进展

一氧化氮作为一种重要的信息分子,参与调节软体动物的嗅觉、运动、取食、机体防御及学习行为。本文从生理、生化、形态定位以及信号转导几方面综述了有关软体动物一氧化氮及其合酶的最新研究进展。     

一氧化氮合酶的若干研究进展

一氧化氮合酶(NOS)是一氧化氮(NO)生物学与医学研究的重要内容.近年来,对NOS酶本质及其生化与分子生物学特性甚至某些分子遗传学方面的认识都在迅速发展和深化.研究表明,干预NOS-NO途径的某些环节,如酶激活、NO合成、释放与转运甚至有关酶的编码基因及其表达,将为某些临床问题的解决提供新的思路和手段．     

Cyclosporin-A Inhibits Constitutive Nitric Oxide Synthase Activity and Neuronal and Endothelial Nitric Oxide Synthase Expressions after Spinal Cord Injury in Rats

Nitric oxide (NO) plays a role in the pathophysiology of spinal cord injury (SCI). NO is produced by three types of nitric oxide synthase (NOS) enzymes: The constitutive Ca²⁺/calmodulin-dependent neuronal NOS (nNOS) and endothelial NOS (eNOS) isoforms, and the inducible calcium-independent isoform (iNOS). During the early stages of SCI, nNOS and eNOS produce significant amounts of NO, therefore, the regulation of their activity and expression may participate in the damage after SCI. In the present study, we used Cyclosporin-A (CsA) to further substantiate the role of Ca-dependent NOS in neural responses associated to SCI. Female Wistar rats were subjected to SCI by contusion, and killed 4 h after lesion. Results showed an increase in the activity of constitutive NOS (cNOS) after lesion, inhibited by CsA (2.5 mg/kg i.p.). Western blot assays showed an increased expression of both nNOS and eNOS after trauma, also antagonized by CsA administration.     

雌性动物生殖系统中的一氧化氮

一氧化氮(nitric oxide,NO)属于无机自由基气体,作为一种特殊的生物传递信号分子,日益受到生命科学各领域的普遍重视。机体内的NO是由三种一氧化氮合酶(nitric oxide synthase,NOS)合成的。NOS在体内的分布极为广泛,几乎遍布机体的每一个系统。研究表明,生殖系统中的NO参与了卵泡的发育和成熟、胚胎的植入、妊娠的维持、分娩等许多生理过程。现就NO在雌性生殖系统中的作用进行阐述。     

Nitric Oxide Cycle in Mammals and the Cyclicity Principle

This paper continues a series of reports considering nitric oxide (NO) and its cyclic conversions in mammals. Numerous facts are summarized with the goal of developing a general concept that would allow the statement of the multiple effects of NO on various systems of living organisms in the form of a short and comprehensive law. The current state of biological aspects of NO research is analyzed in term of elucidation of possible role of these studies in the system of biological sciences. The general concept is based on a notion on cyclic conversions of NO and its metabolites. NO cycles in living organisms and nitrogen turnover in the biosphere and also the Bethe nitrogen–carbon cycle in star matter are considered. A hypothesis that the cyclic organization of processes in living organisms and the biosphere reflects the evolution of life is proposed: the development of physiological functions and metabolism are suggested to be closely related to space and evolution of the Earth as a planet of the Solar System.     

Malondialdehyde, Glutathione, and Nitric Oxide Levels in Toxoplasma gondii Seropositive Patients

The aim of this study was to investigate the difference in the serum malondialdehyde (MDA), glutathione (GSH), and nitric oxide (NO) levels between normal and T. gondii-infected patients. To this end, MDA, GSH, and NO levels in the sera of 37 seropositive patients and 40 participants in the control group were evaluated. In Toxoplasma ELISA, IgG results of the patient group were 1,013.0 ± 543.8 in optical density (mean ± SD). A statistically significant difference was found between patients and the control group in terms of MDA, GSH, and NO levels. A decrease in GSH activity was detected, while MDA and NO levels increased significantly. Consequently, it is suggested that the use of antioxidant vitamins in addition to a parasite treatment shall prove useful. The high infection vs control ratio of MDA and NO levels probably suggests the occurrence as a mechanism of tissue damage in cases of chronic toxoplasmosis. Moreover, it is recommended that the patient levels of MDA, GSH, and NO should be evaluated in toxoplasmosis.     

糖皮质激素对机械通气大鼠肺组织iNOS、NO表达的影响

目的通过观察糖皮质激素对机械通气大鼠肺组织诱导型一氧化氮合酶（iNOS）及一氧化氮（NO）表达的影响,探讨糖皮质激素对呼吸机所致肺损伤（ventilator induced lung injury,VILI）的干预作用。方法 24只雄性Wistar大鼠随机分为对照组、机械通气组、地塞米松（DXM）干预组。用逆转录-聚合酶链反应（RT-PCR）法检测肺组织iNOS mRNA表达,用免疫组织化学染色法检测肺组织iNOS蛋白表达,用硝酸还原酶法测定肺组织和血浆NO含量。结果机械通气组和DXM干预组大鼠肺组织iNOS mRNA及其蛋白表达水平,以及血浆和肺组织NO含量均明显高于对照组（P〈0.01）;DXM干预组上述指标与机械通气组比较均明显降低（P〈0.01）。结论糖皮质激素可通过抑制肺组织iNOS的表达,减少NO的生成,对机械通气大鼠肺组织具有保护作用。     

神经型一氧化氮合酶的活性调控

一氧化氮是重要的信使分子,在生物体内参与众多生理及病理过程。生物体内存在着复杂的一氧化氮合酶活性调控机制以精确调控一氧化氮的生成。在神经系统中,一氧化氮主要由神经型一氧化氮合酶催化生成。神经型一氧化氮合酶的活性主要受到翻译后水平上钙离子和钙调蛋白的调控,其调控方式包括二聚化、多位点的磷酸化和去磷酸化,以及主要由PDZ结构域介导的蛋白质-蛋白质相互作用。一氧化氮本身对其合酶的活性具有负反馈调控作用。近年来的研究提示,细胞质膜上的脂筏微区在神经性一氧化氮合酶的活性调控中也起到重要的调节作用。     

植物体内一氧化氮合成途径研究进展

一氧化氮(NO)作为一种气体信号分子,在植物生理过程中发挥重要作用,它参与调节植物的生长、发育及对外界环境的应激反应.植物体内主要通过酶催化途径和非酶催化途径合成NO.酶催化途径合成NO的主要酶包括一氧化氮合酶(nitric oxide synthase,NOS)和硝酸还原酶(nitrate reductase,NR),以及在某些植物的特定组织或器官或在特殊环境条件下存在的一氧化氮氧化还原酶(nitric oxide oxidoreductase,Ni-NOR)和黄嘌呤氧化还原酶(xanthine oxidoreductase,XOR).非酶催化合成途径主要是在酸性和还原剂存在条件下将亚硝酸盐还原成NO.该文主要结合研究方法,综述了植物体内NO合成途径的研究进展,为植物体内NO信号的作用机理的深入研究提供信息资料.     

New Donors and Acceptors of Nitrogen Oxide as Potential Therapeutic Agents

The synthesis of new donors and acceptors of nitrogen oxide is described. New lipophilic nitronylnitroxyl radicals (NNR) that act as paramagnetic scavengers of nitrogen oxide are synthesized and characterized. The purity of the preparations is determined, and their structures are confirmed. The lipophilicity of the radicals is tested by ESR spectroscopy. The incorporation into lipid multilayers is shown to protect NNR from reduction in biological samples, while their ability to scavenge nitrogen oxide and form iminonitroxyl radicals is retained. A decreased rate of NNR reduction under these conditions substantially enhances their effectiveness as paramagnetic acceptors of nitrogen oxide in biological systems. The synthesis of a new hydrophilic NO donor, 3-bromo-3,4-dihydro-4,4-dimethyl-3-(2-pyridyl)-diazet-1,2-dioxide (DD_pyr), is described. The constants of DD_pyr decomposition in tris-HCl buffer (pH 7.5) and in DMSO are determined (4.5 × 10^–6 and 0.5 × 10^–6 s^–1, respectively). A substantially higher rate of DD_pyr decomposition in buffer, compared with the decomposition rates determined previously for some diazetines, makes DD_pyr a prospective candidate for the use in aqueous media. It is found in experiments on perfused rat caudal artery that DD_pyr is an effective vasodilator. Intraperitoneal injection of DD_pyr to hereditarily hypertensive rats (ISIAH line) at doses of 100–200 g/kg body mass considerably diminishes their systolic arterial pressure.     

Augmentation of Nitric Oxide,Superoxide, and Peroxynitrite Production During Cerebral Ischemia and Reperfusion in the Rat

The effect of ischemia produced by bilateral occlusion of the common carotid arteries (30 min) followed by 4 hours of reperfusion on total and inducible nitric oxide synthase (NOS) activity and the production of nitric oxide (NO), superoxide and peroxynitrite in the cerebral hemispheres was determined in the rat. Compared to sham-operated controls, cerebral ischemia-reperfusion resulted in a significant increase in total and inducible NOS activity and a significant increase in the production of NO and superoxide in the cerebral hemispheres. The level of NO in the plasma and the peripheral leukocyte count were also significantly increased. Immunohistochemical staining for nitrotyrosine (a marker of peroxynitrite production) showed that ischemia-reperfusion resulted in increased synthesis of cerebral peroxynitrite. Administration of the irreversible NOS inhibitor, N-nitro-L-arginine (L-NA), increased superoxide levels in the brain and significantly reduced plasma NO. Total and inducible NOS activity as well as NO and immunoreactive nitrotyrosine, in the cerebral hemispheres were reduced with L-NA administration. The number of leukocytes in the plasma was unaffected by administration of L-NA. These findings suggest that cerebral ischemia-reperfusion causes increased production of reactive oxygen species in the cerebral hemispheres and that the production of peroxynitrite, and not superoxide, may be dependent upon the availability of NO.     

一氧化氮在心肌缺血再灌注损伤中的调节作用 及相关治疗药物研究进展

一氧化氮 ( NO ) 是体内调节心血管系统功能的重要信号分子,在血管收舒、血小板活性调节、细胞增殖凋亡、氧化应激及炎症反 应等过程中发挥了不可或缺的作用。在心肌缺血再灌注过程中,随着一氧化氮合成酶表达和 NO 底物水平的动态变化,NO 生成的时间和 产量均会发生变化,导致其作用具有两面性。综述 NO 的产生与作用、在心肌缺血再灌注损伤中的作用和影响因素以及相关治疗药物及作 用机制的研究进展,为心肌缺血再灌注损伤的有效治疗和进一步研究提供参考     

大鼠脑组织中一氧化氮合酶测定

在含有一氧化氮合酶(NOS)底物左族精氨酸(L-Arg), 辅助因子还原性辅酶Ⅱ(NADPH)、四氢生物蝶呤(BH₄)、黄素单核苷酸(FMN), 黄素腺嘌呤二核苷酸(FAD)以及Ca²⁺、钙调蛋白等溶液中加入大鼠脑组织匀浆离心上清液, 组成酶反应体系. 37℃温育80min, 应用N-(1-萘基)-乙二胺、对氨基苯磺酸的重氮、偶氮反应测定酶反应体系中一定时间内NO代谢产物NO^-₂浓度变化, 建立一种简便的NOS活性测定方法. 反应体系最佳pH为7.4, K_m=0.1mmol/L, 体系内NO^-₂生成量与加入样品量之间有良好线性关系(r=0.998). 此方法简单、方便、重复性好, 批内CV为3.69%, 批间CV为5.16%. 10只健康大鼠脑组织中NOS活性为(39.61±7.64)nmol/(min·g).     

Biochemical Characterization and Histochemical Localization of Nitric Oxide Synthase in the Nervous System of the Snail, Helix pomatia

Abstract: Nitric oxide synthase (NOS) in the snail Helix pomatia was characterized by biochemical and molecular biological techniques and localized by histochemical methods. Central ganglia contained particulate paraformaldehyde-sensitive and cytosolic paraformaldehyde-insensitive NADPH-diaphorase. The cytosolic NADPH-diaphorase activity coeluted with NOS activity. The activity of NOS was dependent on Ca²⁺ and NADPH and was inhibited by N ^G-nitro- l -arginine ( l -NNA). Proteins purified by 2',5'-ADP affinity chromatography were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and migrated at 150, 60, 40, and 30 kDa. An antibody to mammalian NOS exclusively labeled the 60-kDa protein. Characterization of the cDNA of the corresponding 60-kDa NOS-immunoreactive protein revealed no sequence homology with any known NOS isoform. The recombinant protein exhibited Ca²⁺- and NADPH-dependent NOS activity, which was partially inhibited by EGTA and l -NNA. Histochemistry showed NADPH-diaphorase activity in discrete regions of the central and peripheral nervous system. About 60% of the NADPH-diaphorase-positive neurons colocalize with immunoreactive material detected by antibodies to mammalian NOS. Comparison of organs showed the highest NADPH-diaphorase activity in the nervous system, whereas moderate activity was present in muscle tissue, digestive tract, and gonads. Our study suggests the presence of NOS and a putative NOS-associated/regulating protein in mollusk nervous tissue.