Gq protein level increases concurrently with antigen-induced airway hyperresponsiveness in rats

In the present study, bronchial Gq protein level of the airway hyperresponsive rats was determined by using immunoblot analysis. In the airway hyperresponsive rats that were sensitized and repeatedly antigen challenged, the in vitro bronchial responsiveness to acetylcholine was significantly enhanced as compared with that in the sensitized control group. Moreover, the bronchial contraction induced by 10 microM AlF(4)(-) (generated by 10 microM AlCl(3) plus 10 mM NaF) was significantly elevated after repeated antigen challenge (0.44+/-0.13 and 1.09+/-0.09 g tension in the control and airway hyperresponsive groups, respectively; P<0.01). In both groups, immunoblotting with the antibody against G alpha q gave a single 42 kD band. The G alpha q protein levels in the airway hyperresponsive group (0.58+/-0.12) estimated by G alpha q/beta-actin ratio was significantly greater than those in the control group (0.30+/-0.10; P<0.05). These findings suggest that the increase in G alpha q protein level may be involved in the pathogenesis of antigen-induced airway hyperresponsiveness in rats.     

内源性一氧化氮在哮喘大鼠气道高反应性中的作用

目的　利用一氧化氮合成前体Ｌ精氨酸（ＬＡｒｇ） 和一氧化氮合酶抑制剂亚硝基Ｌ精氨酸甲酯（ＬＮＡＭＥ）研究内源性一氧化氮在哮喘大鼠气道高反应性中的作用,探讨支气管哮喘的发病机制。方法　用卵白蛋白作为致敏原制备哮喘大鼠模型,建立大鼠离体气管环张力的测定方法,并用ＬＡｒｇ、ＬＮＡＭＥ和ＬＡｒｇ＋ ＬＮＡＭＥ孵育离体气管环,观察气管环乙酰胆碱浓度反应曲线和最大收缩反应的变化,同时观察去上皮对哮喘大鼠气道反应性的影响。结果　哮喘大鼠（１０ 只） 离体气管环经ＬＮＡＭＥ１０５ ｍｏｌ／Ｌ孵育后对乙酰胆碱的最大收缩反应从孵育前（１２４±３９） ｍｇ 上升到（１８７ ±５３） ｍｇ,孵育前、后最大收缩反应比较差异具有显著性（ Ｐ＜ ０．０１）,浓度反应曲线上移,而ＬＡｒｇ 可以逆转ＬＮＡＭＥ的作用,单用ＬＡｒｇ ２×１０５ ｍｏｌ／Ｌ和ＬＡｒｇ１０３ ｍｏｌ／Ｌ孵育气管环,对哮喘大鼠气管环的最大收缩反应和浓度反应曲线与对照组比较,差异无显著性（ Ｐ＞ ０．０５） 。去上皮哮喘大鼠气管环的反应性与上皮完整气管环比较差异有显著性（ Ｐ＜ ０．００５） ,而ＬＡｒｇ、ＬＮＡＭＥ＋ ＬＡｒｇ 和ＬＮＡＭＥ孵育去上     

Role of nitric oxide in airway inflammation and hyperresponsiveness in bronchial asthma

Nitric oxide (NO) is produced within the airways and has a variety of actions on the airway function. Nitric oxide is a potent bronchodilator, and NO released from airway epithelial cells and inhibitory nonadrenergic non-cholinergic nerve terminals may attenuate airway hyperresponsiveness. However, a large amount of NO produced by inducible NO synthase may facilitate airway inflammation, which then leads to airway hyperresponsiveness. Although the role of NO remains controversial, the measurement of exhaled NO may well be of value in the clinical management of asthma.     

Exhaled nitric oxide continues to reflect airway hyperresponsiveness and disease activity in inhaled corticosteroid-treated adult asthmatic patients

OBJECTIVE: Exhaled nitric oxide (eNO) has been used as a surrogate of airway inflammation in mild asthma. However, whether eNO levels reflect disease activity in symptomatic asthmatics receiving moderate doses of inhaled corticosteroid (ICS) is more uncertain. METHODOLOGY: To examine the relationship between eNO levels, sputum and blood eosinophils (SpE and PbE), PD(20) methacholine as a marker of airway hyperresponsiveness (AHR) and clinical status in 28 ICS-treated asthmatic subjects with persistent asthma compared to that in 25 symptomatic asthmatics managed with beta2-agonists alone. RESULTS: As expected, eNO levels were normalized in ICS-treated subjects and significantly elevated in the beta2-agonist only group (P < 0.001). SpE, PbE and PD20M did not differ between asthmatic groups but FEV1 was significantly worse in ICS-treated subjects (P < 0.01). Exhaled NO levels correlated with PbE within both asthmatic groups (P < 0.005), but with SpE only in ICS-untreated subjects (r(s) = 0.6, P < 0.05). In contrast, PD20M was negatively correlated with eNO and PbE in ICS-treated subjects only (r(s) = - 0.4, r(s) = - 0.4, respectively, P < 0.05). SpE and PbE were strongly correlated in both asthmatic groups (r(s) = 0.8, r(s) = 0.7, respectively, P < 0.005). Exhaled NO levels, SpE and PbE were all positively associated with increased nocturnal awakenings ( P < 0.05) in ICS-treated subjects, but not in ICS-untreated subjects. CONCLUSIONS: In ICS-treated asthma, eNO reflects clinical activity, PbE and AHR but not eosinophilic airway inflammation. Exhaled NO levels are quantitatively and relationally different in asthmatic subjects treated with ICS and continue to have potential for use as a surrogate of asthma pathophysiology in this group.     

Discrepant effects of inducible nitric oxide synthase modulation on systemic and splanchnic endothelial nitric oxide synthase activity and expression in cirrhotic rats

BACKGROUND: Arterial vasodilatation, which is a major factor in the pathogenesis of the hyperkinetic circulatory state and portal hypertension in cirrhosis, is due to arterial nitric oxide (NO) overproduction secondary to endothelial NO synthase (eNOS) and inducible NOS (iNOS) upregulation. However, in cirrhosis, the respective roles of eNOS and iNOS isoforms in NO overproduction are still unknown and the effect of iNOS modulation on eNOS activity and expression has not been evaluated in the systemic or splanchnic vessels. The aim of this study was to evaluate the effects of modulating aortic and superior mesenteric arteries (SMA) iNOS on arterial eNOS activity and expression in rats with cirrhosis. METHODS: eNOS and iNOS protein expression and eNOS activity (assessed by its phosphorylation at serine 1177) were measured in the aortas and SMA in untreated and treated cirrhotic rats with lipopolysaccharide (LPS), N-iminoethyl-L-lysine (L-NIL), a selective iNOS inhibitor, and LPS plus L-NIL. RESULTS: LPS administration significantly increased eNOS and iNOS protein expression and eNOS activity in the aortas of both sham-operated and cirrhotic rats. However, in SMA, LPS administration induced a decrease in eNOS protein expression and activity and an increase in iNOS protein expression. CONCLUSION: The results of this study may explain the worsening of the hyperdynamic state in cirrhosis during septic shock by direct LPS-induced eNOS activation in large systemic vessels, and its inhibition in concomitant small splanchnic vasculature by iNOS synthesized NO.     

Insulin secretion in rats with chronic nitric oxide synthase blockade

Summary Nitric oxide, which is produced from l-arginine by a nitric oxide-synthase enzyme, has been shown to be a ubiquitous messenger molecule. Recently, it has been suggested that nitric oxide might influence insulin secretion by activating the soluble guanylate cyclase and generating cyclic guanosine monophosphate (cGMP). We have investigated the role of the nitric oxide pathway in insulin secretion by evaluating the insulin response to several secretagogues in rats in which nitric oxide-synthase was chronically inhibited by oral administration of the l-arginine analogue, N^G-nitro-l-arginine methyl ester (l-NAME). Blood pressure and aortic wall cGMP content were used as indices of nitric oxide-synthase blockade. Insulin secretion was evaluated after an intravenous bolus of d-glucose, l-arginine or d-arginine. Chronic l-NAME administration induced a 30% increase in blood pressure and a seven-fold drop in arterial cGMP content. Body weight, fasting plasma glucose and insulin were not influenced by l-NAME administration. First-phase insulin secretion (1+3 min) in response to glucose was not significantly different in l-NAME and control rats. The areas under the insulin curve were similar in both groups. Insulin secretion in response to d-arginine or l-arginine in l-NAME-treated and control rats were also similar. In conclusion, chronic nitric oxide-synthase blockade increases blood pressure and decreases aortic cGMP content, but does not alter insulin secretion in response to several secretagogues. Chronic oral administration of l-NAME in the rat provides an adequate animal model for studying the l-arginine nitric oxide-pathway.Abbreviations NO Nitric oxide - cGMP guanosine 3: 5 cyclic monophosphate - l-NMMA N^G-monomethyl-l-arginine - l-NAME N^G-nitro-l-arginine-methyl-ester - NOD mice non obese diabetic mice     

大鼠同种异位心脏移植术后血清NO及心肌组织NOS活性的观察

目的　研究内源性一氧化氮（ＮＯ）与心脏移植急性排斥反应的关系。方法　本研究以大鼠同种异位心脏移植为研究对象，观察了术后３、５、７ 天的血清ＮＯ 水平以及心肌组织一氧化氮合成酶（ＮＯＳ）的活性。结果　在急性排斥反应发生的早期开始血清ＮＯ 水平就已显著升高（术后３、５、７ 天皆为Ｐ ＜ ０．０１）；心肌组织ＮＯＳ活性亦显著高于对照组（术后３ 天Ｐ ＜ ０．０５，术后５ 天Ｐ＜ ０．０１，术后７ 天Ｐ ＜ ０．０５）。结论　血清ＮＯ 水平的检测对于心脏移植急性排斥反应的发生可能具有早期的辅助诊断意义。     

Role of neuronal nitric oxide synthase and inducible nitric oxide synthase in intestinal injury in neonatal rats

AIM: To investigate the dynamic change and role of neuronal nitric oxide synthase (nNOS) and inducible nitric oxide synthase (iNOS) in neonatal rat with intestinal injury and to define whether necrotizing enterocolitis (NEC) is associated with the levels of nitric oxide synthase (NOS) in the mucosa of the affected intestine tissue. METHODS: Wistar rats less than 24 h in age received an intraperitoneal injection with 5 mg/kg lipopolysaccharide (IPS). Ileum tissues were collected at 1, 3, 6, 12 and 24 h following LPS challenge for histological evaluation of NEC and for measurements of nNOS and iNOS. The correlation between the degree of intestinal injury and levels of NOS was determined. RESULTS: The LPS-injected pups showed a significant increase in injury scores versus the control. The expression of nNOS protein and mRNA was diminished after LPS injection. There was a negative significant correlation between the nNOS protein and the grade of median intestinal injury within 24 h. The expression of iNOS protein and mRNA was significantly increased in the peak of intestinal injury. CONCLUSION: nNOS and iNOS play different roles in LPS-induced intestinal injury. Caution should be exerted concerning potential therapeutic uses of NOS inhibitors in NEC.     

Localization of inducible nitric oxide synthase and endothelial constitutive nitric oxide synthase in airway mucosa of toluene diisocyanate-induced asthma.

Endogenous exhaled nitric oxide (NO) is increased in asthma patients, especially in the exacerbated state. To evaluate the role of NO in airway mucosa of toluene diisocyanate (TDI)-induced asthma in relation to clinical and immunologic findings, 20 TDI-induced asthma patients were enrolled and classified into two groups: 9 newly diagnosed patients (group I) and 11 patients having persistent asthma symptoms for > 5 years despite work withdrawal (group II). Immunohistocytochemistry was applied to compare the expression of endothelial constitutive NOS (c-NOS) and induced NOS (i-NOS) in airway mucosa of both groups. They were observed in four areas: epithelium (EP), smooth muscle (SM), vascular endothelium (VE), and mucous gland (MG). The intensity of expression was graded on a scale of one to four and mean values were presented from blind readings observed by two experts. Serum-specific immunoglobulin E (IgE) and immunoglobulin G (IgG) antibodies to TDI-human serum albumin conjugate were measured by enzyme-linked immunosorbent assay. e-NOS was found most frequently in VE (5/6 [83.3] versus 7/10 [70%]) followed by MG, EP, and SM in both groups, i-NOS was found most frequently in EP (7/9 [77.8%] versus 7/11 [63.6%]), followed by MG, VE, and SM in both groups. The intensities of i-NOS and c-NOS of MG were significantly higher in group I than in group II (p < 0.05) with no significant differences in other areas (p > 0.05, respectively). There were no significant correlations between i-NOS or c-NOS expression and exposure or asthma symptom duration (p > 0.05). No associations were found between i-NOS or c-NOS expression and the presence of specific IgE or IgG to TDI-human serum albumin conjugate (p > 0.05, respectively). In conclusion, i-NOS and c-NOS expressions were noted in EP, SM, VE, and MG in airway mucosa of TDI-induced asthma patients, which may contribute to airway inflammation.     

Continuous nitric oxide synthesis by inducible nitric oxide synthase in normal human airway epithelium in vivo.

Nitric oxide (NO) is an important mediator of inflammatory responses in the lung and a key regulator of bronchomotor tone. An airway NO synthase (NOS; EC 1.14.13.39) has been proposed as a source of endogenous NO in the lung but has not been clearly defined. Through molecular cloning, we conclusively demonstrate that NO synthesis in normal human airways is due to the continuous expression of the inducible NOS (iNOS) isoform in airway epithelial cells. Although iNOS mRNA expression is abundant in airway epithelial cells, expression is not detected in other pulmonary cell types, indicating that airway epithelial cells are unique in the continuous pattern of iNOS expression in the lung. In situ analysis reveals all airway epithelial cell types express iNOS. However, removal of epithelial cells from the in vivo airway environment leads to rapid loss of iNOS expression, which suggests expression is dependent upon conditions and/or factors present in the airway. Quantitation of NOS activity in epithelial cell lysates indicates nanomolar levels of NO synthesis occur in vivo. Remarkably, the high-level iNOS expression is constant in airway epithelium of normal individuals over time. However, expression is strikingly decreased by inhaled corticosteroids and beta-adrenergic agonists, medications commonly used in treatment of inflammatory airway diseases. Based upon these findings, we propose that respiratory epithelial cells are key inflammatory cells in the airway, functioning in host defense and potentially playing a role in airway inflammation.     

呼出气一氧化氮与小气道功能预测咳嗽变异性哮喘患者支气管高反应性

目的 评估呼出气一氧化氮(FeNO)及小气道功能指标,预测慢性咳嗽患者支气管高反应性(BHR)的价值.方法 回顾性分析2019年1月-2020年1月期间我院呼吸内科就诊的慢性咳嗽患者资料,将慢性咳嗽患者分为支气管激发试验(BPT)阳性组与BPT阴性组,评估FeNO、肺通气功能及脉冲振荡肺功能(IOS)对BHR的诊断价值...     

Brain nitric oxide synthase activity in spontaneously hypertensive rats during the development of hypertension

OBJECTIVES: Blockade of neuronal nitric oxide synthase (nNOS) in the brain induced an increase in mean arterial pressure of spontaneously hypertensive rats (SHR). We hypothesize that increased nitric oxide (NO) synthesis in the brain compensates for hypertension. Therefore, we measured NOS activity in different brain regions in SHR at prehypertensive, onset and established hypertension, and compared with age-matched Wistar-Kyoto (WKY) rats. METHOD: NOS activity was measured by the ability of tissue homogenate to convert [3H]l-arginine to [3H]l-citrulline in a Ca2+- and NADPH-dependent manner. RESULTS: NOS activity was impaired in the cerebral cortex and brainstem of prehypertensive SHR. At established hypertension, SHR showed an augmentation in NOS activity in hypothalamus and brainstem. Chronic treatment of SHR with the angiotensin-1 converting enzyme (ACE)-inhibitor, enalapril, and the AT(1) receptor antagonist, losartan, normalized NOS activity in the hypothalamus but not in the brainstem. Treatment with a peripheral vasodilator, hydralazine, did not affect NOS activity. CONCLUSION: Attenuated NOS activity in the cortex and brainstem of prehypertensive SHR may play a role in the pathogenesis of hypertension. The upregulated NOS activity in the hypothalamus and brainstem of SHR possibly serves to compensate for hypertension. Hypothalamic, but not brainstem, NO is involved in antihypertensive effects of ACE inhibition and AT(1) receptor blockade. Since a blood pressure decrease per se had no effect on NOS activity, it appears that central sympathetic activity influenced by endogenous angiotensin II, rather than blood pressure, represents the stimulus for the increased NOS activity in the hypothalamus of SHR.     

Aortic smooth muscle cell proliferation and endothelial nitric oxide synthase activity in fructose-fed rats

The aim of this study was to evaluate the proliferative behavior of vascular smooth muscle cells in primary culture (pC-SMC) and the endothelial nitric oxide synthase (eNOS) activity in the endothelial lining of the aorta of fructose-fed rats (FFR). This is an experimental model of syndrome X, a cluster of cardiovascular risk factors including hyperinsulinemia, insulin resistance, and hypertension that has been suggested to be of pathophysiologic importance for the development of atherosclerosis.Male Wistar rats were used: Control (n = 12) and FFR (n = 12). After receiving fructose in drinking water (10% w/v) during 8 weeks, biochemical parameters, systolic blood pressure (SBP) and relative heart weight (RHW) were determined. The proliferative effect of 10% fetal calf serum (FCS) was examined in aortic pC-SMC by [³H]thymidine incorporation and by cell counting. Ca²⁺/calmodulin-dependent NOS activity was estimated in aortic endothelial lining and in heart tissue homogenates by conversion of [³H]arginine into [³H]citrulline.Fructose-fed rats showed hyperinsulinemia (P = .0263), altered glucose tolerance test (P < .001), higher SBP (P < .0001), and RHW (P = .0145), compared to control rats. These animals also showed an increase of 10% FCS-induced [³H]thymidine incorporation (P < .0001) and cell number of aortic pC-SMC (P = .0049) and decreased eNOS activity in both aortic endothelium (P = .0147) and cardiac tissue (P < .0001).These data support the hypothesis that syndrome X is associated to changes in SMC proliferation and endothelial dysfunction, which could be involved in the onset or progression of the atherogenic process.     

Melatonin reduces nitric oxide synthase activity in rat hypothalamus

Abstract: In this report, rat hypothalamic nitric oxide synthase (NOS) activity is shown to be partially inhibited by physiological concentrations of the pineal hormone melatonin. In vitro studies demonstrate that 1 nM melatonin, which approximates the physiological concentration of the hormone at night, significantly inhibited NOS activity. In vivo studies show that administering melatonin or collecting the hypothalamus from animals at night, when endogenous melatonin levels are elevated, results in a significant decrease of NOS activity. Results also show that calmodulin may be involved in this process since its presence in the incubation medium prevents the inhibitory effect of melatonin on NOS activity.     

Changes in nitric oxide synthase activity in the ovary of gonadotropin treated rats: the role of nitric oxide during ovulation

Immature rats receiving equine chorionic gonadotropin (eCG) and human CG (hCG) were used to study the time course changes in nitric oxide synthase (NOS) activity in the ovary during ovulation. To study the role of NO in ovulation, the effects of intrabursal injection of L-N(G)-monomethylarginine (L-NMMA, 125 microg/20 microl/bursa), a NOS inhibitor, on the number of ova shed were also examined. Rats were sacrificed at -48, 0, 3, 6, 9, 12, and 24 h after hCG injection, and the ovaries were collected for the NOS activity assay, Western blotting, NADPH-diaphorase histochemistry and immunohistochemistry. Total NOS and constitutive NOS activities in the ovary increased significantly at 9 h after hCG injection and the values remained high thereafter. Inducible NOS (iNOS) activity was detectable as a small peak at 3 and 6 h after hCG injection. Endothelial NOS (eNOS) protein production increased after hCG injection with a peak at 12 h, whereas iNOS protein production decreased at 12 and 24 h after hCG injection. NADPH-diaphorase positive cells increased at the thecae of growing follicles after hCG injection, appeared at mural granulosa cells before ovulation, and were detected in newly formed corpora lutea, which coincided with the results in eNOS positive cells by immunohistochemistry. L-NMMA given to rats at 5 or 7 h after hCG was most effective in reducing the number of ova shed. These results indicate that the NOS activity and NOS positive cells increased after hCG injection, and that eNOS was likely the main NOS increasing in the ovary during ovulation. It is concluded that NO produced between 5 and 9 h after hCG might play a supportive role in ovulation.