Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.14.13.39 (NO synthase)
 15,778 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of nitric oxide (NO) in the etiology of ulcerative colitis is controversial with reports of the improvement and aggravation of colonic lesions by inducible NO synthase (iNOS) inhibitors. In the present study, we compared the effect of the selective iNOS inhibitor aminoguanidine and the nonselective NOS inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) on a dextran sulfate sodium (DSS)-induced model of colitis in rats. Experimental colitis was induced by a 3% DSS-solution added to drinking water for 7 days. Aminoguanidine (5 approximately 20 mg/kg) and L-NAME (10 mg/kg) were administered p.o. twice daily for the first 3 days, the last 3 days or all 6 days of DSS treatment. Body weight and severity of colitis (diarrhea, bloody feces) were observed over a period of 7 days. DSS treatment resulted in severe colonic lesions, accompanied by diarrhea, bloody feces, decrease of body weight and colon shortening. All of the parameters investigated improved significantly with aminoguanidine treatment at 20 mg/kg for 6 days or the last 3 days of DSS-treatment, but L-NAME did not significantly affect the colitis during these periods. When L-NAME or aminoguanidine was given in the first 3 days of DSS treatment, the colonic lesions were slightly aggravated by L-NAME but not affected by aminoguanidine. The expression of iNOS mRNA was observed from the 3(rd) day of DSS treatment. These results suggested that endogenous NO exerts a biphasic influence on DSS-induced colitis, depending on the NOS isoenzyme; a beneficial effect of NO derived from constitutive NOS and a detrimental effect of NO produced by iNOS in the development of colitis.
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PMID:Dual role of endogenous nitric oxide in development of dextran sodium sulfate-induced colitis in rats. 1561 46

Nitric oxide (NO) plays an important role in the pathophysiology of sepsis and septic shock but the mechanism is not well understood. The aim of this study was to investigate the role of NO in the cytochrome P450 (CYP) isozyme activity and the expression of its gene during polymicrobial sepsis. The rats were subjected to polymicrobial sepsis by cecal ligation and puncture (CLP). Aminoguanidine (AG, 100 mg/kg body weight) or N(omega)-nitro-L-arginine methyl ester (L-NAME, 100 mg/kg body weight) was injected intraperitoneally at 0, 3, 6, 10, and 20 h after CLP. The plasma nitrite/nitrate concentration increased 24 h after CLP, and this increase was almost completely abolished by AG and L-NAME. Sepsis increased the serum aminotransferase and lipid peroxidation levels, which were attenuated by AG but augmented by L-NAME. The hepatic concentration of the reduced gluthathione decreased in the CLP rats, which was inhibited by AG but augmented by L-NAME. The total CYP content decreased after CLP, which was restored by AG and L-NAME. The CYP1A1, 1A2, and 2E1 activities, along with their protein levels, decreased 24 h after CLP but these decreases were reversed by AG and L-NAME. The CYP1A1, 1A2, 2B1, and 2E1 mRNA expression levels decreased 24 h after CLP, and L-NAME inhibited this decrease. NO plays a key role in the sepsis-mediated decrease in CYP via the interplay of two different mechanisms: NO-dependent suppression of protein via the enhanced inducible NO synthase, and NO-dependent transcriptional suppression via endothelial NO synthase.
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PMID:Role of nitric oxide in the inhibition of liver cytochrome P450 during sepsis. 1688 34

Nitric oxide (NO) is an important regulator of renal transport processes. In the present study, we investigated the role of NO, produced by inducible NO synthase (iNOS), in the regulation of renal ATP-binding cassette (ABC) transporters in vivo during endotoxemia. Wistar-Hannover rats were injected with lipopolysaccharide (LPS(+)) alone or in combination with the iNOS inhibitor, aminoguanidine. Controls received detoxified LPS (LPS(-)). After LPS(+), proximal tubular damage and a reduction in renal function were observed. Furthermore, iNOS mRNA and protein, and the amount of NO metabolites in plasma and urine, increased compared to the LPS(-) group. Coadministration with aminoguanidine resulted in an attenuation of iNOS induction and reduction of renal damage. Gene expression of 20 ABC transporters was determined. After LPS(+), a clear up-regulation in Abca1, Abcb1/P-glycoprotein (P-gp), Abcb11/bile salt export pump (Bsep), and Abcc2/multidrug resistance protein (Mrp2) was found, whereas Abcc8 was down-regulated. Up-regulation of Abcc2/Mrp2 was accompanied by enhanced calcein excretion. Aminoguanidine attenuated the effects on transporter expression. Our data indicate that NO, produced locally by renal iNOS, regulates the expression of ABC transporters in vivo. Furthermore, we showed, for the first time, expression and subcellular localization of Abcb11/Bsep in rat kidney.
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PMID:Nitric oxide differentially regulates renal ATP-binding cassette transporters during endotoxemia. 1728

Sepsis, the leading cause of death in intensive care units, is associated with overproduction of nitric oxide (NO) due to inducible NO synthase (iNOS), responsible for some of the pathologic changes. Aminoguanidine (AG) is a selective iNOS inhibitor with reported inconsistent actions in sepsis. To investigate the influence of iNOS, we studied models of acute bacterial sepsis using acute challenges with aerobic (Escherichia coli) and anaerobic (Bacteroides fragilis) bacteria in the presence of AG. Six-week-old, 23 g, male and female BALB/c and C57Bl/6j mice, in equal proportions, were inoculated (ip) with bacteria in groups of 4 animals for each dose and each experiment in the absence or presence of AG (50 mg/kg, ip, starting 24 h before challenge and daily until day 6) and serum nitrate was measured by chemiluminescence. Both types of bacteria were lethal to mice, with an LD50 of 6 nephelometric units (U) for E. coli and 8 U for B. fragilis. Nitrate production peaked on the second day after E. coli inoculation with 8 and 6 U (P < 0.05), but was absent after non-lethal lower doses. After challenge with B. fragilis this early peak occurred at all tested doses after 24 h, including non-lethal ones (P < 0.05). AG-treated mice challenged with E. coli presented higher survival (P < 0.05) and increased LD50. AG-treated mice challenged with B. fragilis had lower LD50 and higher mortality. Control AG-treated animals presented no toxic effects. The opposite effect of iNOS blockade by AG in these models could be explained by restriction of oxygen for immune cells or an efficient action of NO in anaerobic localized infections. The antagonic role of NO production observed in our bacterial models could explain the reported discrepancy of NO action in sepsis.
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PMID:Antagonic effect of the inhibition of inducible nitric oxide on the mortality of mice acutely infected with Escherichia coli and Bacteroides fragilis. 1733 28

Nitric oxide (NO) is produced by a variety of cells within the respiratory tract, particularly airway epithelial cells, and its increased concentration in asthma is likely to derive from inducible NO synthase (iNOS) expressed in inflamed airways. To evaluate whether an increased bronchial flux of NO (ie, airway wall NO flux [Jno] in picoliters per second) produced in the large airways is due to an enzyme overexpression, we administered a relatively selective iNOS inhibitor, aminoguanidine, by nebulization in a double-blind, placebo-controlled manner in asthmatic and healthy subjects and also investigated whether the same concentration of inhibitor has any effect on NO produced in the peripheral lungs (ie, alveolar NO concentration [Calv] in parts per billion [ppb]) or on the diffusing capacity of NO (Dno) [in picoliters per second(-1) per ppb(-1)) in the airways. Aminoguanidine administration resulted in a significant reduction in Jno compared with administration of the saline solution control in eight healthy subjects and in eight patients with asthma but caused no significant changes in Calv or in Dno in either group. No rise in BP, fall in FEV(1), or adverse effects were observed in either group. These results indicate that iNOS from larger airways is the predominant source of elevated large airway-derived NO in patients with asthma, and that exhaled NO from peripheral lungs is not affected by a nebulized iNOS inhibitor and, therefore, is more likely to be derived form constitutive forms of NO synthase.
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PMID:Effect of an inducible nitric oxide synthase inhibitor on differential flow-exhaled nitric oxide in asthmatic patients and healthy volunteers. 1755 Sep 32

Aminoguanidine (AG) is capable of preventing advanced protein glycation and inhibiting the activity of enzymes with carbonyl groups as cofactors, such as nitric-oxide synthase (NOS) and semicarbazide-sensitive amine oxidase (SSAO). The hydrazide moiety of AG can also interact with different endogenous carbonyl metabolites and potentially harmful endogenous aldehydes. Aldehydes can be generated via different pathways, such as lipid peroxidation (malondialdehyde and 4-hydroxynonenal), oxidative deamination (aldehydes), and carbohydrate metabolism (methylglyoxal). Formaldehyde and methylglyoxal are produced via SSAO-catalyzed deamination of methylamine and aminoacetone, respectively. An increase in SSAO-mediated deamination is known to be associated with various vascular disorders, such as diabetic complications. The present study demonstrates that AG is not only capable of rapidly interacting with aldehydes in vitro but also scavenging aldehydes in vivo. The AG-formaldehyde adducts were traced, and their structures were elucidated by high-performance liquid chromatography-mass spectrometry. AG has also been shown to block formaldehyde-induced beta-amyloid aggregation. Thus, AG can be an aldehyde scavenger in addition to blocking advanced glycation and inhibition of SSAO and NOS activity. Such reactions may contribute to its pharmacological effects in the treatment of vascular disorders associated with diabetic complications and other disorders.
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PMID:Evidence for in vivo scavenging by aminoguanidine of formaldehyde produced via semicarbazide-sensitive amine oxidase-mediated deamination. 1759 37

Abnormalities of endothelial function have been demonstrated in diabetes and are thought to play a role in the pathogenesis of diabetic complications. The aims of this study were to determine whether aminoguanidine, an inhibitor of glycation, can prevent endothelial and microcirculation abnormalities in a primate model of type 1 diabetes. Male baboons (Papio hamadryas) were assigned to one of the four groups: control, diabetes, control treated with aminoguanidine or diabetes treated with aminoguanidine. Diabetes was induced by streptozocin (60 mg/kg) and treated with once daily injection of insulin. Aminoguanidine was given subcutaneously (10 mg/kg), once a day. Diabetic animals had a mean duration of diabetes of 8.9 +/- 3.4 years and HbA1c of 8.9 +/- 1.1%. Microvascular function was measured by laser Doppler velocimetry, with examination of endothelium-dependent increase in skin blood flow (SkBF) following iontophoresis of acetylcholine (ACh) and endothelium-independent increase in SkBF in response to the nitric oxide (NO) donor sodium nitroprusside (SNP). Multiple regression analysis identified diabetes (P = 0.049) and aminioguanidine treatment (P = 0.026) as significant determinants of ACh response. The diabetic baboons treated with aminoguanidine had less Ach-mediated SkBF response compared with controls (1.39 +/- 0.32 vs. 2.26 +/- 0.61, F = 3.3, P = 0.04), but there was no difference between groups in SkBF response to SNP. We conclude that endothelial dysfunction can be demonstrated in this primate model of type 1 diabetes at a stage when overt diabetic complications are not present. This occurred in the absence of insulin resistance or significant hypercholesterolemia. Administration of aminoguanidine from the onset of diabetes was not able to prevent this abnormality and in fact aggravated the endothelial response. Effects of aminoguanidine on NO synthase may contribute to this phenomenon.
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PMID:The effects of diabetes and aminoguanidine treatment on endothelial function in a primate model of type 1 diabetes. 1848 Dec 56

Our aim was to investigate the effect of central NOS inhibition on hypothalamic arginine vasopressin (AVP) gene expression, hormone release and on the cardiovascular response during experimental sepsis. Male Wistar rats were intracerebroventricularly injected with the non-selective NO synthase (NOS) inhibitor (L-NAME) or aminoguanidine, a selective inhibitor of the inducible isoform (iNOS). After 30 min, sepsis was induced by cecal ligation and puncture (CLP) causing an increase in heart rate (HR), as well as a reduction in median arterial pressure (MAP) and AVP expression ratio (AVP(R)), mainly in the supraoptic nucleus. AVP plasma levels (AVPp) increased in the early but not in the late phase of sepsis. L-NAME pretreatment increased MAP but did not change HR. It also resulted in an increase in AVPp at all time points, except 24h, when it returned to basal levels. AVP(R), however remained reduced in both nuclei. Aminoguanidine pretreatment resulted in increased MAP in the early phase and higher AVP(R) in the supraoptic, but not in the paraventricular nucleus, while AVPp remained elevated at all time points. We suggest that increased central NO production, mainly inducible NOS-derived, reduces AVP gene expression differentially in supraoptic and paraventricular nuclei, and that this may contribute to low AVP plasma levels and hypotension in the late phase of sepsis.
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PMID:Central NOS inhibition differentially affects vasopressin gene expression in hypothalamic nuclei in septic rats. 2064 87

We investigated the involvement of nitric oxide (NO) and prostaglandins (PGs) in the damage to the blood-brain barrier (BBB) induced by lipopolysaccharide (LPS), using fluorescein as a tracer in mice. Aminoguanidine, a competitive inhibitor of inducible NO synthase (iNOS), when administered s.c. at 5 mg/kg, but not 500 mg/kg, reduced significantly the increase in brain fluorescein level after its i.v. injection in LPS-treated mice. When 1000 mg/kg of l-arginine, a substrate of NOS, were co-administered with 5 mg/kg of aminoguanidine to LPS-treated mice, the inhibitory effect of aminoguanidine on the increased fluorescein level disappeared. N(G)-Nitro-l-arginine methyl ester (l-NAME), a non-isoenzyme-selective NOS inhibitor, when administered s.c. at 5 mg/kg, only slightly reduced the LPS-induced increase in the brain fluorescein level. A pretreatment with dexamethasone, which suppressed the induction of both iNOS and cyclooxygenase 2 (COX-2), tended to decrease the brain fluorescein level in LPS-treated mice. Indomethacin, a COX inhibitor, at 5 mg/kg, but not 10 mg/kg, suppressed significantly the LPS-induced increase in the brain fluorescein level. These results involve that both the NO produced by iNOS and the PGs produced by COX contribute to enhance BBB permeability in LPS-administered mice.
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PMID:Roles of nitric oxide and prostaglandins in the increased permeability of the blood-brain barrier caused by lipopolysaccharide. 2178 48

A significant involvement of nitric oxide (NO) in the process of keratinocyte proliferation is reported with many divergences. To determine the involvement of NO in the hyperproliferative process of epidermis in vivo, non-selective inhibitor (N(G)-nitro-L-arginine-methyl ester.HCl: L-NAME) and selective inhibitors for inducible NO synthase (iNOS) and neuronal NO synthase (nNOS) (Aminoguanidine: AG and 7-Nitroindazole: 7-NI, respectively) and a NO-donor (Sodium nitroprusside: SNP) were topically applied twice a day in mice ear treated with multiple applications of croton oil. L-NAME and 7-NI treatments decreased and SNP increased ear edema formation. However, ear weight was reduced in groups that received L-NAME and 7-NI, while the AG and SNP groups presented an increment. The histological evaluation of epidermis thickness showed that all NOS inhibitors were able to prevent the increase in epidermis width caused by croton oil, while SNP contributed to enlargement. The same results were observed in the PCNA staining, where treatments with NOS inhibitors caused a reduction in the number of cells in the epidermis, while SNP caused an enhancement. 7-NI treatment reduced polymorphonuclear and mononuclear leukocytes migration when compared to the control group. The AG application increased the migration of polymorphonuclear and mononuclear cells, while the SNP enhanced only the polymorphonuclear cells. Therefore, in the skin NO produced by nNOS is involved in the control of keratinocyte hyperproliferation, with the contribution of iNOS. In the animal model of cutaneous chronic inflammation by croton oil, NO is involved in the exudation and leukocyte migration, with participation of all three enzymes.
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PMID:In vivo participation of nitric oxide in hyperproliferative epidermal phenomena in mice. 2249 2


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