诱导型一氧化氮合酶与疾病

炎症是众多疾病如自体免疫紊乱、神经退行性病变、心血管疾病和癌症发展的病理机制,诱导型一氧化氮合酶在炎症过程中被诱导表达,产生过量的一氧化氮,引发炎症级联反应,进而导致以上多种疾病发生。抑制诱导型一氧化氮合酶表达在体内体外实验及临床使用中均体现抗炎效果和症状改善。本文综述了诱导型一氧化氮合酶在炎症过程中诱导表达及与各类重大疾病联系的最新进展,并展望了诱导型一氧化氮合酶抑制剂作为抗炎治疗策略的前景。     

草鱼诱导型一氧化氮合酶cDNA和启动子的克隆及分析

应用PCR和RACE技术,以细菌脂多糖(LPS)刺激的草鱼头肾白细胞cDNA为模板,获得草鱼iNOS (Inducible nitric oxide synthase)全长cDNA序列.该序列共4286 bp,编码含1080个氨基酸残基的蛋白.氨基酸序列比对分析发现草鱼iNOS与金鱼iNOS a和b、斑马鱼iNOS 2b以及鲤鱼iNOS高度保守,序列一致性均大于80%;它们的血红素、四氢生物蝶呤、钙调蛋白、FMN、FAD和NADH等辅因子结合区域也十分保守.用NJ法对新获得的序列和其它脊椎动物NOS的编码序列进行进化分析证实它属于诱导型NOS.在此基础上,运用基因步移技术分离草鱼iNOS基因的启动子序列,共有1978 bp.生物信息学分析发现该序列含有包括GR、AP1、C/EBP、ER、YY1、IRF1和IL-6 REBP在内的多个转录因子的潜在结合位点.     

牛蛙视网膜诱导型一氧化氮合酶免疫组化定位

用免疫组织化学方法研究了诱导型一氧化氮酶（iNOS)在牛蛙视网膜中的表达。结果显示,在正常状态视网膜中,无长突细胞呈弱阳性反应;节细胞层、双极细胞,水平细胞和光感受器内段呈阴性反应,在暗适应状态下,神经节细胞,内核层的无长突细胞呈强阳性反应;一些双极细胞,水平细胞和光感受器内段呈弱阳性反应,提示NO主要在暗适应状态下参与视网膜的信息传递过程。     

The Effect of Air Pollution on Exhaled Nitric Oxide of Atopic and Nonatopic Subjects

Levels of exhaled nitric oxide (NO) were determined in well-characterized atopic and nonatopic subjects on 4 days with a different level of outdoor air pollution. The two groups matched well regarding spirometric values, i.e., no difference with regard to FEV(1), FVC, and peak flow. On the 4 test days asymptomatic atopic subjects exhaled 1.5- to 2.4-fold higher levels of NO compared with nonatopic subjects. In both groups the increase in exhaled NO in response to air pollution was similar (2.5 times maximal increase, P < 0.01). In conclusion, atopic subjects exhale higher levels of NO compared with nonatopic subjects, but respond to a similar degree to increased levels of air pollution.     

In Vivo Expression of Inducible Nitric Oxide Synthase in Cerebellar Neurons

Abstract: In the CNS, nitric oxide (NO) functions as both neuromodulator and neurotoxic agent. In vivo neuronal expression of NO synthase (NOS) has been attributed to constitutive NOS—both the neuronal and the endothelial types. The other class of NOS—the inducible NOS (iNOS)—is known to mediate toxic effects of NO in various tissues. In this study, we show for the first time that direct intracerebellar injection of endotoxin and cytokine (lipopolysaccharide and interferon-γ) induced in vivo neuronal expression of the iNOS gene, as demonstrated by fluorescent in situ hybridization and immunohistochemical staining analyzed by confocal laser-scanning microscopy. This raises the possibility that neuronal iNOS might contribute significantly to the vulnerability of the brain to various insults.     

Norepinephrine Suppresses Inducible Nitric Oxide Synthase Activity in Rat Astroglial Cultures

Abstract: Exposure of primary rat astrocyte cultures to bacterial endotoxin lipopolysaccharide (LPS) causes expression of a Ca²⁺-in-dependent form of nitric oxide synthase (NOS). In these cells, the presence of norepinephrine (NE) caused a dose-dependent inhibition of the LPS induction of NOS activity, with an IC₅₀ value of 100 nMand significant suppression at 100 pAf. Short incubations (5-40 min) with NE were as effective as 24-h continuous exposure, and inhibition was observed up to the longest incubation period measured (56 h). In contrast, previously induced NOS activity was not affected by exposure to NE. The effects of NE were mediated primarily by binding to β-adrenergic receptors (β-ARs) because (a) the β-AR antagonist propranolol, but not the n-AR antagonist phentol-amine, could reverse the effects of NE; (b) the β-AR agonist isoproterenol. but not the a-AR agonist phenylephrine, was as effective as NE in blocking the effects of LPS; and (c) incubation with the cyclic AMP analogue dibutyryl cyclic AMP replicated the effects of NE. In contrast to astroglial cultures, LPS induction of NOS activity in RAW 264.7 macrophage cells was not affected by NE or dibutyryl cyclic AMP. These results indicate that in brain, inducible NOS in astrocytes can be regulated by neurotransmitter binding to glial receptors.     

Cytokine Induction of Inducible Nitric Oxide Synthase in an Oligodendrocyte Cell Line

Abstract : The induction of inducible nitric oxide synthase (iNOS) by proinflammatory cytokines was studied in an oligodendrocyte progenitor cell line in relation to mitogen-activated protein kinase (MAPK) activation and cytokine-mediated cytotoxicity. When introduced individually to cultures of CG4 cells, the cytokines, i.e., tumor necrosis factor-α (TNFα), interleukin-1 (IL-1), and interferon-γ (IFNγ), had either minimal (TNFα) or no (IL-1 and IFNγ) detectable stimulatory effect on the production of nitric oxide. However, combinations of these factors, in particular, TNFα plus IFNγ, elicited a strong enhancement of nitric oxide synthesis and, as revealed by western blot and RT-PCR analysis, the expression of iNOS. TNFα and IL-1 were able to activate p38 MAPK in a time- and dose-dependent manner and together showed a combinatorial effect. In contrast, IFNγ neither activated on its own nor enhanced the activation of p38 MAPK in response to TNFα and IL-1. However, a specific inhibitor of p38 MAPK, i.e., SB203580, inhibited the induction of iNOS in cytokine combination-treated cells in a dose-dependent manner, thereby suggesting a role for the MAPK cascade in regulating the induction of iNOS gene expression in cytokine-treated cells. Blocking of nitric oxide production by an inhibitor of iNOS, i.e., nitro-L-arginine methyl ester, had a minimal protective effect against cytokine-mediated cytotoxicity that occurred before the elevation of nitric oxide levels, thereby indicating temporal and functional dissociation of nitric oxide production from cell killing.     

Heat-Killed Lactic Acid Bacteria Inhibit Nitric Oxide Production via Inducible Nitric Oxide Synthase and Cyclooxygenase-2 in RAW 264.7 Cells

Heat-killed lactic acid bacteria perform immunomodulatory functions and are advantageous as probiotics, considering their long product shelf-life, easy storage, and convenient transportation. In this study, we aimed to develop appropriate heat treatments for industrial preparation of probiotics with antioxidant activity. Among 75 heat-killed strains, Lactococcus lactis MG5125 revealed the highest nitric oxide inhibition (86.2%), followed by Lactobacillus acidophilus MG4559 (86.0%), Lactobacillus plantarum MG5270 (85.7%), Lactobacillus fermentum MG4510 (85.3%), L. plantarum MG5239 (83.9%), L. plantarum MG5289 (83.2%), and L. plantarum MG5203 (81.8%). Moreover, the heat-killed selected strains markedly inhibited lipopolysaccharide-induced nitric oxide synthase and cyclooxygenase-2 expression. The use of heat-killed bacteria with intact bio-functionality can elongate the shelf-life and simplify the food processing steps of probiotic foods, given their high stability. The antioxidant and immune-modulatory activities of the heat-killed strains selected in this study indicate a strong potential for their utilization probiotic products manufacturing.

     

Altered Expression of Inducible Nitric Oxide Synthase After Sciatic Nerve Injury in Rat

Nitric oxide is known to contribute to neuronal damage as well as to peripheral neuronal regeneration following injury. Sciatic nerve injury is a common and serious complication of intramuscular injections. In order to ascertain the role of inducible nitric oxide synthase (iNOS) in the injured sciatic nerve, we studied the expression of this enzyme by RT-PCR and immunohistochemistry, in a rat model of sciatic nerve injury. In sham-operated control rats iNOS expression was undetectable by immunohistochemistry and its mRNA level was also very low. In contrast, in the experimental group that was subjected to sciatic nerve injury, both mRNA and protein of iNOS were found to be significantly elevated. The protein level of iNOS, as revealed by positive immunostaining, peaked at 7 days post-surgery followed by a decrease. Similarly, the iNOS mRNA levels remained elevated at 1, 3, 7 days but declined to very low level by day 21, after surgery. This study indicates that the increased expression of iNOS after sciatic nerve injury in rats may contribute to nerve regeneration. Thus our results suggest that excessive expression of iNOS after nerve injury is not conducive to nerve regeneration.     

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。     

INOS和ET在脊髓损伤组织中的表达

目的:探讨脊髓损伤(Spinal cord injury,SCI)后,诱生型一氧化氮酶(Inducible nitric oxide synthase,INOS)与内皮素(Endothelin,ET)的表达情况.方法:Wistar大鼠36只,随机分成3组,为正常对照组、轻(中)度损伤组和重度损伤组.大鼠在脊髓损伤后14天处死.应用S-P免疫组化法检测INOS和ET表达情况.结果:正常组几乎未见INOS和ET表达.在损伤14天后,轻(中)度脊髓损伤和重度脊髓损伤中的INOS的阳性率分别为14.8%和59.3%,两组有显著性差异(P=0.004). ET的阳性率分别为11.1%和51.9%,两组有显著性差异(P=0.013).结论:INOS与ET参与了大鼠脊髓损伤过程,并且与损伤程度相关.     

Protective Vascular and Cardiac Effects of Inducible Nitric Oxide Synthase in Mice with Hyperhomocysteinemia

Diet-induced hyperhomocysteinemia produces endothelial and cardiac dysfunction and promotes thrombosis through a mechanism proposed to involve oxidative stress. Inducible nitric oxide synthase (iNOS) is upregulated in hyperhomocysteinemia and can generate superoxide. We therefore tested the hypothesis that iNOS mediates the adverse oxidative, vascular, thrombotic, and cardiac effects of hyperhomocysteinemia. Mice deficient in iNOS (Nos2−/−) and their wild-type (Nos2+/+) littermates were fed a high methionine/low folate (HM/LF) diet to induce mild hyperhomocysteinemia, with a 2-fold increase in plasma total homocysteine (P<0.001 vs. control diet). Hyperhomocysteinemic Nos2+/+ mice exhibited endothelial dysfunction in cerebral arterioles, with impaired dilatation to acetylcholine but not nitroprusside, and enhanced susceptibility to carotid artery thrombosis, with shortened times to occlusion following photochemical injury (P<0.05 vs. control diet). Nos2−/− mice had decreased rather than increased dilatation responses to acetylcholine (P<0.05 vs. Nos2+/+ mice). Nos2−/− mice fed control diet also exhibited shortened times to thrombotic occlusion (P<0.05 vs. Nos2+/+ mice), and iNOS deficiency failed to protect from endothelial dysfunction or accelerated thrombosis in mice with hyperhomocysteinemia. Deficiency of iNOS did not alter myocardial infarct size in mice fed the control diet but significantly increased infarct size and cardiac superoxide production in mice fed the HM/LF diet (P<0.05 vs. Nos2+/+ mice). These findings suggest that endogenous iNOS protects from, rather than exacerbates, endothelial dysfunction, thrombosis, and hyperhomocysteinemia-associated myocardial ischemia-reperfusion injury. In the setting of mild hyperhomocysteinemia, iNOS functions to blunt cardiac oxidative stress rather than functioning as a source of superoxide.     

逆转录病毒载体介导诱导型NO合酶在神经细胞中表达

为了深入研究诱导型一氧化氮合酶基因表达产物在阿片耐受和依赖中作用,采用脂质体介导基因转染技术,将ｉＮＯＳ ｃＤＮＡ重组逆转录病毒载体导入ＮＧ１０８－１５神经细胞,获得Ｇ４１８抗性克隆,命名为ＮＧ－ＬＮＣＸｉＮＯＳ细胞。ＤＮＡ印迹杂交,ＰＣＲ扩增及ＲＴ－ＰＣＲ和蛋白质免疫印迹杂交分析,证实ＮＧ－ＬＮＣＸｉＮＯＳ细胞有外源ｉＮＯＳ基因整合,转录和表达;ＮＡＤＰＨ黄递酶（ＮＡＤＰＨ ｄｉａｐｈｏｒａｓｅ     

Emodin Inhibits Inducible Nitric Oxide Synthase in a Rat Model of Craniocerebral Explosive Injury

To investigate the effects of emodin on blast-induced traumatic brain injury (bTBI) in a rat model. Eighty rats were randomly divided into 2 groups (the control group and the emodin-treated group; N = 40 per group) and were used to establish the model of blast-induced traumatic brain injury. Ten minutes after the explosion, an isotonic saline solution (10 mg/kg) or emodin (10 mg/kg) were administered via an intraperitoneal injection to the control group and the emodin-treated group, respectively. At each time point (pre-explosion, 2, 6, 12, 24 h after explosion), 2 rats were used for the pathological assessment and 6 rats were used for the biochemical assessment. The concentration of nitric oxide (NO) and the expression and activity of inducible nitric oxide synthase (iNOS) were measured at each time point by spectrophotometry and western blot analysis. Light and electron microscopy showed that the brain damage in the emodin-treated group was less serious than that observed in the control group. The concentration of NO in the emodin-treated group was lower compared with the control group (p < 0.05). Western blot analysis showed that protein expression in the emodin-treated group was lower than the control group (p < 0.05). Emodin can alleviate brain damage after bTBI by inhibiting iNOS. These findings suggest that emodin has a protective effect against bTBI. One possible mechanism may occur by inhibiting the expression and activity of iNOS and consequently decreasing the concentration of NO.     

中国人诱导型一氧化氮合酶基因STR多态性研究

一氧化氮（nitric oxide,NO）作为一种可在细胞间自由扩散的信使分子在神经递质传递和血管舒张调节等生理与病理过程中起着重要作用。NO通过一氧化氮合酶（nitric oxide synthase,NOS）催化L-精氨酸的氧化反应而生成。目前在哺乳动物中已发现细胞来源、表达方式和活性调节不同的3种NOS同工酶,分别为神经原型NOS(meuronal NOS,nNOS）、诱导型NOS(inducible NOS,iNOS）和内皮细胞型NOS（endothelial NOS,eNOS）。3种NOS由位于不同染色体上的基因所编码。人iNOS基因位于第17号染色体长臂(17q11.2～17q12）,全长约37kb,含有26个外显子,iNOS可在多种类型的细胞中通过IL-1、IFN-a、INF-γ等细胞因子和其他介质的刺激作用而诱导表达。iNOS基因5‘-端调控区内存在一个CCTTT串联重复的多态性位点,这一多态性基因座已居北爱尔兰的糖尿病患者中证实与微血管病变有关。另有实验表明,CCTTT串联重复序列的变化对iNOS基因的转录将产生不同影响。目前在东方种族中有关iNOS基因CCTTT串联重复多态性尚未见报道。将303名中国汉族人基因组DNA用于iNOS基因CCTTT串联重复多态性分析,鉴定出了12种等位基因和49种基因型,其中重复17次、18次和19次的等位基因是在人类中首次发现的新等位基因。统计学检验和比较表明,中国汉族人iNOS基因CCTTT串联重复序列的6个等位基因频率与来自英格兰的高加索人差异显著,说明这一多态性位点的等位基因频率分布存在种族差异。在中国正常人群中获得的有关iNOS基因STR多态性的统计资料,对于进一步研究这一多态性基因座与心脑血管疾病的相关性将有重要应用价值。     

高原鼠兔诱导型一氧化氮合酶cDNA克隆及序列分析

高原鼠兔Ochotona curzoniae,世居在青藏高原海拔3000~5000 m的地区,是一种典型的低氧耐受哺乳动物。一氧化氮(NO)作为一种有效的血管舒张因子,在预防低氧诱导的低氧性肺血管收缩反应和肺动脉高压中发挥着重要功能。诱导型一氧化氮合酶(iNOS)是一种催化L-精氨酸合成NO的重要酶,受低氧调控。本研究经RTPCR和cDNA 3’末端快速扩增(3’RACE)方法成功克隆了高原鼠兔iNOS基因cDNA序列,并对其分子特征进行了分析。结果显示:高原鼠兔iNOS cDNA全长为3981 bp,开放阅读框(ORF)为3450 bp,共编码1149个氨基酸残基;预测的蛋白序列与北美鼠兔、兔、人、大鼠、小鼠、狗以及猪的同源性分别为98%、87%、82%、78%、78%、82%和83%;蛋白结构预测结果显示高原鼠兔iNOS具有氧化域、还原域及黄素腺苷酸结合区域等iNOS所具有的典型结构域;基于iNOS的最大似然树和贝叶斯树均支持鼠兔与兔有最近的亲缘关系,与形态或其他分子标记构建的进化关系相符;分子进化分析检测到高原鼠兔iNOS中存在3个正选择位点——32T、33Y和46R,但不同模型的结果表明哺乳动物iNOS基因所受选择以净化选择为主,不支持iNOS在高原鼠兔支系发生适应性进化。该研究为揭示高原鼠兔iNOS的表达特征及其在低氧适应中的作用与调控机制研究奠定了初步基础。