Overexpressed nitric oxide synthase in portal-hypertensive stomach of rat: a key to increased susceptibility to damage?

BACKGROUND & AIMS: Portal hypertension predisposes gastric mucosa to increased injury. The aim of this study was to determine whether overexpression of constitutive nitric oxide synthase (cNOS) is responsible for increased susceptibility of portal-hypertensive (PHT) gastric mucosa to damage. METHODS: In gastric specimens from PHT and sham-operated rats, cNOS messenger RNA expression was determined by Northern blotting and cNOS protein expression by Western blotting, immunohistochemistry, and enzyme activity assay. Extent of ethanol-induced gastric mucosal necrosis, mucosal blood flow, and gastric NOS activity in PHT and sham-operated rats was determined after administration of N(omega)-nitro-L-arginine methyl ester (L-NAME) or saline. RESULTS: cNOS messenger RNA level, cNOS enzyme activity, and fluorescence signals for cNOS were increased significantly in PHT rats compared with controls. Inhibition of overexpressed cNOS by L-NAME (5 mg/kg) significantly reduced ethanol-induced mucosal necrosis and normalized blood flow in PHT gastric mucosa, whereas this dose of L-NAME significantly increased mucosal necrosis in sham-operated rats. CONCLUSIONS: Portal hypertension activates the cNOS gene with overexpression of cNOS protein in endothelia of gastric mucosal vessels. Excessive NO production by overexpressed cNOS may play an important role in the increased susceptibility of PHT gastric mucosa to damage.     

Role of nitric oxide in pathogenesis of gastric mucosal damage induced by compound 48/80 in rats

We examined the effects of various nitric oxide synthase (NOS) inhibitors on development of gastric lesions induced by compound 48/80 (48/80) in rats and investigated the roles of NO and inducible NOS (iNOS) in inflammatory gastric responses. Animals were given 48/80 (1 mg/kg, i.p.) once daily for 4 days, and the stomachs were examined for lesions 24 h after the final administration. NOS inhibitors such as L-NAME, L-NMMA, aminoguanidine or dexamethasone were administered for 4 days during 48/80 treatment. The repeated administration of 48/80 caused damage in the stomach with severe edema in the submucosa. These lesions induced by 48/80 were dose-dependently prevented by concurrent administration of L-NAME. The protective effect of L-NAME on 48/80-induced gastric lesions was mimicked by L-NMMA, aminoguanidine as well as dexamethasone, and significantly antagonized by co-administration of L-arginine but not by D-arginine. Acid secretion was slightly decreased after 48/80 treatment, but was significantly augmented by the combined administration of L-NAME with 48/80. The mucosal MPO activity, TBA reactants and vascular permeability in the stomach were all increased after 48/80 treatment, but these changes were also significantly mitigated by co-administration of L-NAME. The Ca(2+)-independent NOS activity in the mucosa was increased four times during 48/80 treatment, and this change was also inhibited by dexamethasone. These results suggest that: 1) the repeated administration of 48/80 induced inflammatory gastric lesions in the rat stomach; 2) the pathogenic mechanism of these lesions involves endogenous NO produced by iNOS, in addition to oxyradical formation; and 3) the deleterious role of NO during 48/80 treatment may be accounted for by a cytotoxic action of peroxynitrite, which is formed in the presence of NO and superoxide radicals.     

Involvement of free radicals and histamine in the potentiating action of cigarette smoke exposure on ethanol-induced gastric mucosal damage in rats

Cigarette smoking has been associated with peptic ulcer diseases. We studied the effects of cigarette smoke exposure on ethanol-induced gastric mucosal damage and its relationship with vascular integrity and the possible role of free radicals and histamine. Male Sprague-Dawley rats were exposed to cigarette smoke followed by ethanol administration (70% v/v). Smoke exposure alone dose-dependently reduced basal blood flow and increased xanthine oxidase (XO) activity but superoxide dismutase (SOD) activity remained unaffected in gastric mucosa. Cigarette smoking followed by ethanol administration significantly potentiated mucosal lesion formation along with augmentation of the mucosal blood flow, vascular permeability and myeloperoxidase (MPO) activity. The potentiating effect of smoking on ethanol-induced gastric mucosal lesion and MPO activity was abolished by pretreatment with allopurinol, terfenadine or ranitidine. Terfenadine and ranitidine also reduced the increased mucosal blood flow and vascular permeability induced by smoking and ethanol combined. These findings suggested that cigarette smoke adversely affected the defense mechanisms of the gastric mucosa by reducing the mucosal blood flow which in turn led to ischemia and increased XO activity. Activation of XO together with histamine H1 and H2 receptors stimulation could lead to neutrophil aggregation and vascular damage. However, the potentiating action of cigarette smoke on ethanol ulceration is unlikely through reduction of SOD activity in gastric mucosa.     

Role of constitutive nitric oxide synthase and peroxynitrite production in a rat model of splanchnic artery occlusion shock

Peroxynitrite, a potent cytotoxic oxidant formed by the reaction of nitric oxide with superoxide anion, is an important mediator of reperfusion injury. In a rodent model of mesenteric ischemia and reperfusion injury we evaluated the contribution of the constitutive and/or inducible nitric oxide synthase (cNOS or iNOS) in the formation of peroxynitrite. Splanchnic artery occlusion (SAO) shock was induced in rats by clamping both the superior mesenteric artery and the celiac trunk for 45 min, followed by release of the clamps (reperfusion). A significant peroxynitrite production was found in the plasma of the splanchnic occlusion shocked rats at 60 minutes after reperfusion. Immunohistochemical examination demonstrated a marked increase in the immunoreactivity to nitrotyrosine, a specific "footprint" of peroxynitrite, in the necrotic ileum and the aorta of shocked rats. No change in plasma levels of nitrate/nitrite, tissue iNOS expression (by western blotting detection) or iNOS activity was found in the intestine at 60 minutes after reperfusion. On the contrary, activity of the cNOS was reduced (approximately 50%) in the reperfused ischemic intestinal tissue. Treatment with NG-nitro-L-arginine methyl ester, a non selective inhibitor of nitric oxide synthase (given at 3 mg/kg i.v., 5 min prior to reperfusion), significantly reduced plasma level of peroxynitrite and the immunohistochemical staining for nitrotyrosine in the ileum and aorta. Our results suggest that during splanchnic artery occlusion shock peroxynitrite formation is likely to be correlated with nitric oxide production from constitutive nitric oxide synthase activation rather than from the inducible isoform enzyme.     

Gastric mucosal blood flow response to stress in streptozotocin diabetic rats: regulatory role of nitric oxide

To investigate cytoprotection against mucosal injuries of the stomach in patients with diabetes, we investigated gastric mucosal blood flow (GMBF), its response to a burn stress, and the involvement of nitric oxide (NO) in streptozotocin (STZ) diabetic rats. GMBF was measured by laser-Doppler velocimetry (LDV) and by the hydrogen gas clearance technique (HGC). The steady-state GMBF of STZ rats decreased according to the duration of diabetes, and insulin treatment blocked this decrease. Burn stress caused a rapid decrease in the GMBF. Reduction of the GMBF and gastric mucosal leakage of Evans blue (EB) after the burn stress were greater in the STZ rats than in the controls, but insulin treatment completely blocked this increase in EB leakage in the STZ rats. There was a significant negative correlation between the percent GMBF 3 h after the burn stress and EB leakage at the same time point. In the controls and the insulin-treated STZ rats, N-nitro-L-arginine (L-NNA), an NO synthase inhibitor, enhanced the decrease in postburn GMBF and EB leakage, but was without effect in the STZ rats. These results suggest that NO may be involved in the regulation of GMBF, and that persistent hyperglycemia may impair this regulation. These findings suggest that patients with diabetes have reduced cytoprotection against a variety of gastric mucosal injuries.     

Increased expression of inducible and endothelial constitutive nitric oxide synthases in rat colon tumors induced by azoxymethane

Nitric oxide (NO) is an important bioregulatory mediator involved in a variety of biological processes under both physiological and pathological conditions. To assess whether NO production is altered in colon carcinogenesis, the expression levels and localization of two isoforms of NO synthase, inducible NO synthase (iNOS) and endothelial constitutive NO synthase (eNOS), were examined by immunoblot and immunohistochemical methods in normal colonic mucosa and colon carcinomas induced by azoxymethane in male F344 rats. All colon carcinoma tissues examined were found to have an increased expression of iNOS and eNOS proteins as compared to normal colonic mucosa. In particular, the pronounced staining of iNOS protein localized to the luminal surface of carcinoma epithelial cells was not detectable in normal colon epithelium. The neovasculature in tumor tissues also demonstrated intense eNOS immunoreactivity in endothelial cells. These findings indicate that NO production is markedly elevated in azoxymethane-induced rat colon carcinomas, suggesting that regulatory pathways involving this mediator have some biological relevance to colon carcinogenesis in this model.     

Antioxidant defense capabilities of gastric mucosa induced by water immersion restraint stress of rat

Lipid peroxidation mediated by free radicals is believed to be one of the important causes of membrane destruction and cell damage. Lipid peroxidation in gastric mucosa induced by the stress is also suggested to cause gastric lesions. However very little is known about the antioxidant mechanisms in gastric mucosa, which is thought to be accelerated by the stress as an adaptive response. So we investigated lipid peroxide (LPO) and the production of lipid hydroperoxides by 1,5-lipoxygenase, which might reflect the antioxidant capabilities in gastric mucosa. The analysis of lipid hydroperoxide was done by high performance liquid chromatography (HPLC) using chemiluminescence which we have established. The production of lipid hydroperoxide by lipoxygenase was done by the condition of Low-Ethanol method. The water immersion restraint stress induced significant rise of gastric mucosal LPO assayed by the thiobarbituric acid-reactive substances method but lipid hydroperoxide was not detected by HPLC. The production of lipid hydroperoxide by lipoxygenase was clearly found in the gastric mucosa before the stress but the stress of 2 or 4 hours depressed the production of lipid hydroperoxides significantly. These findings showed that the stress induced the increase of antioxidant capabilities in the gastric mucosa as an adaptive reaction and the lipid hydroperoxide induced by the stress might be scavenged quickly.     

Physiological and physiopathological aspects of nitric acid in mammalian tissues

In recent years, nitric oxide (NO), a single but highly reactive molecule has become known as the central point of many researchs. NO is synthesized by the enzyme nitric oxide synthase (NOS) in mammals from the amino-acid L-arginine. The products of L-arginine oxidation by NOS are L-citrulline and NO. Nitric oxide has a very short half life, is lipid soluble, reacts easily with several enzymatic systems, and is produced by a wide amount of cells. At least, three kinds of enzymes NOS have been described: two of them are calcium-dependent and continuously present in select cells (constitutive NOS, cNOS). One cNOS isoform is present in the cytosol of neuronal cells, while the other isoform is present in membrane-bound form, in endothelial cells. cNOS produces small quantities of NO, following stimulation by specific agonist. NO produced by cNOS frequently mediates cellular communications and cellular signaling. A third isoform is calcium-independent, is not present in unstimulated cells, and produces large quantities of NO following stimulation of the appropriate cell with cytokines or LPS (inducible NOS, iNOS). NO is a mediator of both physiological and pathological process. It acts directly on its targets, one of them, maybe the most important, is the soluble guanylate cyclase, and produces a variety of biological effects, ranged from cytoprotection to cytotoxicity. An analysis of the biochemistry and physiology of NO is the focus of this review, together with its biological action and potential therapeutical implications.     

Effects of afferent and efferent celiac nerves on acute gastric lesions: due to changes in blood flow?

Since ablation of afferent nerves prior to stress results in increased severity of acute gastric mucosal lesions, afferent nerves are thought to mediate protective mechanisms in the stomach. These mechanisms are known to include vasodilation of gastric mucosal vessels; vasodilation is thought to allow the gastric mucosa to respond to injurious substances. However, it is not known whether other aspects of mucosal health, independent of those caused by increased blood blow, are affected by afferent blockade. This study compared gastric blood flow and acute gastric mucosal lesions during stress in rats with either chemical sympathectomy or afferent blockade. The purpose of the study was to compare the lesion index and blood flow in each treatment group. The lesion index was highest in rats with afferent blockade and lowest after sympathectomy. Gastric blood flow was partially preserved after sympathectomy, but was not greatly increased, suggesting that some of the effects observed after afferent blockade are unrelated to changes in blood flow.     

Co-expression of APP with cNOS but not iNOS after cortical injury in rat

Alterations in the expression of both the beta-amyloid precursor protein (APP) and nitric oxide synthase (NOS) might be involved in neurodegenerative conditions and/or in the neuronal response to injury. We have investigated the relationship between the increased expression of beta-amyloid precursor protein (APP) and the reactive changes in the expression of isoforms of nitric oxide synthase (NOS) in neurons and glial cells after small electrolytic lesions placed to the cerebral cortex. An increase in the expression of APP in both neurons and glial cells was detected 4 days post-operation. The inducible NOS (iNOS) was observed in macrophages or glial cells surrounding the lesion site. No major changes in constitutive NOS (cNOS) were found. APP immunoreactivity was not co-localized with either iNOS or cNOS at this survival time. At longer survival times (8 and 12 days post-lesion), a reactive increase in the expression of cNOS in cortical pyramidal neurons was seen in addition to the elevated expression of iNOS in astrocytes. The reactive expression of cNOS was confined to a subset of neurons also showing a high expression of APP. The present results suggest a relationship between reactive changes in the expression of APP and cNOS during the neuronal response to injury.     

Pathophysiological role of nitric oxide in rat experimental colitis

Overproduction of nitric oxide (NO) by inducible nitric oxide synthase (iNOS) may contribute to the pathophysiology of ulcerative colitis. A 2,4,6-trinitrobenzenesulfonic acid sodium salt (TNBS) colitis model was established to examine the effect of selective iNOS inhibition, by S-(2-aminoethyl) isothiouronium bromide (ITU), on colonic mucosal cell damage and inflammation. Rats, killed 7 days after TNBS, had increased colonic mucosal levels of iNOS and interleukin-8 (IL-8), in addition to severe colonic inflammation which was characterized by significantly increased colon weight, damage score and colonic myeloperoxidase activity (MPO) (a marker of neutrophil influx). TNBS-treated rats had markedly decreased body weight and thymus weight. Administration of colitic rats with ITU significantly inhibited iNOS activity/expression and tended to reduce mucosal levels of IL-8, but no effect on MPO activity was observed. Following ITU therapy, colitic rats had reduced colonic damage and losses in body weight and thymus weight were reversed. Improvement of TNBS colitis by ITU suggested that excess NO, produced by iNOS, may have contributed to the initiation/amplification of colonic disease, by mechanisms including enhancement of IL-8 release. NO-mediated enhancement of pro-inflammatory cytokine release was further investigated in vitro. Lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma) stimulated release of nitrite, lactate dehydrogenase (LDH), TNF alpha, IL-1 beta and IL-8 from rat peritoneal macrophages, all of which were significantly reduced by ITU. This suggests that NO-mediated cell damage enhances pro-inflammatory mediator release from macrophages. In addition, enhancement of IL-8 and TNF alpha release was also partially NO-dependent in activated peritoneal neutrophils. Therefore, the amelioration of TNBS colitis by ITU could include inhibition of NO-mediated pro-inflammatory cytokine release.     

Mucosal lesions due to gastric distension in the rat

The pathogenesis of acute gastric mucosal lesions produced by distension of the rat stomach was studied. One hour of distension with 0.1 N HCl, but not saline, produced lesions in the glandular stomach in all rats. Histologic studies revealed marked thinning of the mucosa plus thrombus formation in the ulcerated area. Gastric distension with 8 ml HCl (per 100 g body weight) produced severe lesions, 4 ml minimal lesions and 2 ml no lesions. Intragastric pressure in the 8-ml group remained above 110 mm H2O for the first 10 min. Distension with 8 ml acid/100 g body weight for just 10 min resulted in significant lesion formation. Acid distension did not cause generalized disruption of the gastric mucosal barrier to H+ back-diffusion. It appears that an intragastric pressure of over 110 mm H2O for 10 min damages the mucosa by pressure (with thinning) and ischemia (with thrombosis), resulting in decreased resistance to acid peptic digestion and consequent acute lesion formation.     

Induction and intracellular localization of a 72-kDa heat shock protein in rat gastric mucosa after water-immersion stress

We investigated the expression and changes in the intracellular localization of a 72-kDa heat shock protein (HSP72) in rat gastric pyloric and fundic mucosa before and after water-immersion stress. Severe mucosal damage was found in the fundic mucosal area of the stomach after this stress. However, no mucosal lesion developed in the pyloric mucosal area. HSP72 in both the soluble and insoluble fractions of the pyloric and the fundic mucosal areas was significantly increased after water-immersion stress, peaking 6h after the initiation of the stress. The increase in HSP72 was more significant in the pyloric mucosal area than in the fundic mucosal area under both normal and stress conditions. The increase of HSP72 in the pyloric mucosal cells occurred prior to the formation of the mucosal lesions, whereas the increase of HSP72 in the fundic mucosal cells was observed after ulcer formation. An immunohistochemical study showed that HSP72 was constitutively expressed in the cytoplasm of the gastric mucosal cells, and that the intranuclear induction of HSP72 was remarkably intense in the pyloric mucosal cells, especially in the proliferative zone, compared with the fundic mucosal cells. Our results may suggest that HSP72 has an important cytoprotective function in gastric mucosal cells and that there is a "biophysical" difference between pyloric and the fundic mucosal cells.     

Involvement of superoxide and nitric oxide on airway inflammation and hyperresponsiveness induced by diesel exhaust particles in mice

We previously demonstrated that chronic intratracheal instillation of diesel exhaust particles (DEP) induces airway inflammation and hyperresponsiveness in the mouse, and that these effects were partially reversed by the administration of superoxide dismutase (SOD). In the present study, we have investigated the involvement of superoxide in DEP-induced airway response by analyzing the localization and activity of two enzymes: (1) a superoxide producer, NADPH cytochrome P-450 reductase (P-450 reductase), and (2) a superoxide scavenger, SOD, in the lungs of the exposed mice and controls. P-450 reductase was detected mainly in ciliated cells and clara cells: its activity was increased by the repeated intratracheal instillation of DEP. While CuZn-SOD and Mn-SOD were also present in the airway epithelium, their activity was significantly decreased following DEP instillation. Exposure to DEP doubled the level of nitric oxide (NO) in the exhaled air. DEP exposure also increased the level of constitutive NO synthase (cNOS) in the airway epithelium and inducible NO synthase (iNOS) in the macrophages. Pretreatment with N-G-monomethyl L-arginine, a nonspecific inhibitor of NO synthase, significantly reduced the airway hyperresponsiveness induced by DEP. These results indicate that superoxide and NO may each contribute to the airway inflammation and hyperresponsiveness induced by the repeated intratracheal instillation of DEP in mice.     

Imaging of the buffering effect of insulin antibodies in the autoimmune hypoglycemic syndrome

The activity and protein expression of endothelial nitric oxide synthase (eNOS) and inducible NOS (iNOS) were investigated during the development of hypertension in spontaneously hypertensive rats (SHR). SHR and Wistar-Kyoto rats (WKY) were studied at three different ages: 4, 14 to 17, and 63 weeks of age. After treatment with saline or lipopolysaccharide (LPS, 10 mg/kg IV) for 3 hours, the aortas were removed for measurement of NOS activity and protein expression assay by [3H]-L-citrulline formation method and Western blot analysis, respectively. Plasma levels of nitrite/nitrate (NO2-/NO3-) and tumor necrosis factor-alpha (TNF-alpha) were also determined. At 14 to 17 weeks and 63 weeks, the basal activity and protein expression of eNOS in the aortas were significantly lower in SHR than in WKY. In addition, the aged WKY exhibited lower eNOS activity than that of adult WKY, but this change was not seen in SHR. By comparison, the basal activity and protein expression of iNOS were only observed in SHR of the 14-to-17-week group and in the 63-week group; SHR still exhibited higher activities, and these differences were further exaggerated by treatment with LPS. The basal and LPS-induced NO2-/NO3- and TNF-alpha levels in the plasma were also higher in the SHR except the 4-week group. After treatment with quinapril, the basal and LPS-induced expressions of iNOS in SHR were significantly attenuated. Our results demonstrated that alterations of activity and protein expression of eNOS and iNOS occurred in SHR. In addition, aging may reduce the activity of eNOS in WKY but not in SHR. The decline of eNOS activity and/or expression may contribute to the development of hypertension, whereas the increase of iNOS expression may be a consequence of the pathological state of vessels associated with hypertension in SHR. However, the augmented expression of iNOS in SHR was attenuated by antihypertensive therapy, suggesting that the abnormal expression of iNOS is associated with hypertension.     

Kalirin inhibition of inducible nitric-oxide synthase

Nitric oxide (NO) acts as a neurotransmitter. However, excess NO produced from neuronal NO synthase (nNOS) or inducible NOS (iNOS) during inflammation of the central nervous system can be neurotoxic, disrupting neurotransmitter and hormone production and killing neurons. A screen of a hippocampal cDNA library showed that a unique region of the iNOS protein interacts with Kalirin, previously identified as an interactor with a secretory granule peptide biosynthetic enzyme. Kalirin associates with iNOS in vitro and in vivo and inhibits iNOS activity by preventing the formation of iNOS homodimers. Expression of exogenous Kalirin in pituitary cells dramatically reduces iNOS inhibition of ACTH secretion. Thus Kalirin may play a neuroprotective role during inflammation of the central nervous system by inhibiting iNOS activity.     

Anesthesia with sodium pentobarbital enhances lipopolysaccharide-induced cardiovascular dysfunction in rats

Lipopolysaccharide (LPS)-induced hypotension and impaired aortic contraction to norepinephrine (NE) are thought to be consequent to induction of nitric oxide synthase (iNOS). Anesthesia is often employed in studies of the mechanisms mediating LPS-induced cardiovascular dysfunction in rats. Since sympathetic nervous system activity and compensatory mechanisms can be altered by anesthesia, this study was designed to determine a) if the cardiovascular dysfunction associated with LPS (5 mg/kg, i.v.)-induced endotoxin shock is enhanced in anesthetized compared with conscious male Wistar rats, and b) the potential role of iNOS in these responses to LPS. Arterial pressure and heart rate were continuously measured via a femoral arterial cannula. Six hours after LPS, conscious rats had a stable mean arterial pressure (MAP) and were tachycardic, while anesthetized rats showed a significant decrease in MAP without tachycardia. Small mesenteric arterioles (200-300 microns) were isolated, and the endothelium was removed six h after LPS. Intraluminal diameter was continuously recorded while vessels were maintained at a constant intraluminal pressure of 40 mmHg. Norepinephrine-induced contraction and oscillations/min were impaired to a greater extent in arterioles from LPS-treated anesthetized rats than in those from conscious rats. Calcium-dependent and -independent nitric oxide formation, reflected as cGMP accumulation, were also determined in aortic rings treated with a chelator of Ca2+, EGTA, or the inhibitor of nitric oxide synthase activity, L-NAME. In rings from saline-treated conscious and anesthetized rats, cGMP accumulation was significantly reduced by EGTA and L-NAME, indicating calcium-dependent constitutive (cNOS) activity. However, in aortic rings from LPS-treated conscious and anesthetized rats, cGMP accumulation was not affected by EGTA and was significantly greater in rings from anesthetized vs. conscious rats. These results suggest that cardiovascular dysfunction is more prominent in LPS-treated anesthetized vs. conscious rats. This effect may be related to increased induction of iNOS in the presence of anesthesia.