Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elevations in arterial pressure associated with hypertension, microgravity, and prolonged bed rest alter cerebrovascular autoregulation in humans. Using head-down tail suspension (HDT) in rats to induce cephalic fluid shifts and elevate arterial pressure, this study tested the hypothesis that 2-wk HDT enhances cerebral artery vasoconstriction and that an enhanced vasoconstriction described in vitro will alter regional cerebral blood flow (CBF) and vascular resistance (CVR) during standing and head-up tilt. To test this hypothesis, basal tone and vasoconstrictor responses to increases in transmural pressure, shear stress, and K(+) were determined in vitro in middle cerebral arteries (MCAs) from HDT and control rats. All in vitro measurements were done in the presence and absence of the nitric oxide synthase (NOS) inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME; 10(-5) M) and with endothelium removal. Endothelial NOS (eNOS) mRNA and protein expression levels were measured by RT-PCR and immunoblot, respectively. Regional CBF and CVR were determined with a radiolabeled tracer technique and quantitative autoradiography. Basal tone and all vasoconstrictor responses were greater in MCAs from HDT rats. L-NAME and endothelium removal abolished these differences between groups, and HDT was associated with lower levels of MCA eNOS protein. CBF in select regions was lower and CVR higher during standing and head-up tilt in HDT rats. These results indicate that chronic cephalic fluid shifts enhanced basal tone and vasoconstriction through alterations in the eNOS signaling mechanism. The functional consequence of these vascular alterations with HDT is regional elevations in CVR and corresponding reductions in cerebral perfusion.
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PMID:Simulated microgravity enhances cerebral artery vasoconstriction and vascular resistance through endothelial nitric oxide mechanism. 1557 39

Cyclosporin A is shown to attenuate antinociceptive effects of morphine, development and expression of morphine-induced tolerance and dependency via nitric oxide (NO) pathway. In the present study, the effect of systemic cyclosporin A on morphine-induced conditioned place preference (CPP) and the probable involvement of nitric oxide were assessed in mice. Our data showed that administration of morphine (1, 2.5, 5, 7.5, 10 mg/kg) significantly increased the time spent in the drug-paired compartment in a dose-dependent manner. The maximum response was obtained with 5 mg/kg of morphine. Cyclosporin A (5, 10 mg/kg) and N(G)-nitro-L-arginine methyl ester (L-NAME; 2.5, 5, 10 mg/kg), a nonselective nitric oxide synthase (NOS) inhibitor, did not induce either conditioned place preference or conditioned place aversion (CPA), while cyclosporin A (20 mg/kg) induced CPA. Both cyclosporin A (10, 20 mg/kg) and L-NAME (5, 10 mg/kg), in combination with morphine (5 mg/kg) during conditioning, significantly suppressed acquisition of morphine-induced place preference. Lower and per se noneffective doses of Cyclosporin A (1, 2.5, 5 mg/kg) and L-NAME (2.5 mg/kg), when coadministered, exerted a significant potentiating effect on the attenuation of morphine-induced place preference. Aminoguanidine (50, 100 mg/kg), the specific inducible nitric oxide synthase (iNOS) inhibitor, whether alone or in combination with cyclosporin A failed to show this inhibitory effect on morphine-induced place preference. In conclusion, decreasing nitric oxide production through inhibiting constitutive nitric oxide synthase may be a mechanism through which cyclosporin A attenuates morphine-induced place preference.
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PMID:Effect of cyclosporin A on morphine-induced place conditioning in mice: involvement of nitric oxide. 1565

The involvement of nitric oxide (*NO) in oxidative stress in the rat gastrocnemius muscle subjected to ischemia/reperfusion injury was investigated using a specific and sensitive chemiluminescence (CL) method for measurement of both membrane lipid peroxide and total tissue antioxidant capacity (TRAP). In addition, inhibitors of nitric oxide synthase enzymes were used. The CL time-course curve increased dramatically after 1, 2, and 4 h of reperfusion, reaching values about 12 times higher than those of both control and ischemic rats. Initial velocity (V0) increased from 13.6 cpm mg protein(-1) min(-1) in the ischemic group, to 7341-8524 cpm mg protein(-1) min(-1) following reperfusion. The administration of L-NAME prior to reperfusion significantly reduced (p<0.007) the time-course of the CL curve, decreasing the V(0) value by 51% and preventing antioxidant consumption for 1h following reperfusion. No significant change in CL time-course curve and TRAP values were observed with aminoguanidine treatment. On contrary, after 4h following reperfusion, pre treatment with aminoguanidine led to a significant decrease (p < 0.0001) in the time-course of the CL curve, where V0 decreased by 75% and TRAP returned to control levels. No significant change in CL time-course curve and TRAP values were observed with L-NAME treatment. When RT-PCR was carried out with an iNOS-specific primer, a single band was detected in RNA extracted from muscle tissue of only the 4 h ischemia/4 h reperfusion group. No bands were found in either the control, 4 h ischemia or 4 h ischemia/1 h reperfusion groups. Based on these results, we conclude that *NO plays an important role in oxidative stress injury, possibly via -ONOO, in skeletal muscle subjected to ischemia/reperfusion. Our results also show that cNOS isoenzymes are preferentially involved in *NO generation at the beginning of reperfusion and that iNOS isoenzyme plays an important role in reperfusion injury producing *NO later in the process.
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PMID:Nitric oxide mediated oxidative stress injury in rat skeletal muscle subjected to ischemia/reperfusion as evaluated by chemiluminescence. 1612 23

Glibenclamide as a second-generation compound of sulfonylurea has widely been used in the treatment of type 2 diabetes patients. It has been shown that it induces apoptosis in beta cells, which is partially mediated by Ca(2+) influx. Here, we investigated the role of nitric oxide (NO) and nitric oxide synthase (NOS) isoforms on glibenclamide-induced apoptosis in rat insulinoma cells. Our results showed that glibenclamide induces NO generation (measured as nitrite) that is accompanied with decrease of cell viability in a defined concentration of glibenclamide. The effects of glibenclamide on cell viability were partially inhibited after treatment with N(G)-nitro-L-arginine methyl ester (L-NAME), inhibitor more selective for constitutive nitric oxide synthase, and in the presence of D600--a blocker of voltage-gated L-type Ca(2+) channels inhibited Ca(2+) influx into beta cells, whereas aminoguanidine (AG), a preferential inhibitor of inducible NOS, was significantly less effective. Analysis of DNA fragmentation by electrophoresis and staining with Hoechest 33342 and propidium iodide showed that L-NAME, but not AG, prevented DNA fragmentation and decreased the number of cells with condensed and fragmented nuclei. It revealed that the effects of glibenclamide on apoptosis were partially inhibited by treatment with L-NAME. In conclusion, we have shown that NO production in glibenclamide treated cells may be involved in the induction of apoptotic cell death in pure beta cell line and it may be due to Ca(2+) dependent activation of constitutive NOS isoforms.
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PMID:Nitric oxide involvement in pancreatic beta cell apoptosis by glibenclamide. 1625 81

The present study evaluates the effect of endogenous male sex hormones on the reactivity to alpha2-adrenoceptor activation, and to analyze the role of the endothelium in this response in intact and endothelially denuded superior mesenteric arteries from control and orchidectomized male Sprague-Dawley rats. The concentration-dependent constriction induced by clonidine was analyzed in the absence and presence of the nitric oxide synthase (NOS) inhibitor, Nomega-nitro-L-arginine (L-NAME), cyclooxygenase (COX-1 and COX-2) inhibitors, indomethacin, the specific COX-2 inhibitor NS-398, the thromboxane-prostanoid receptor antagonist SQ29,548 and the thromboxane A2 (TXA2) synthase inhibitor, furegrelate. Endothelial NOS (eNOS), COX-2 and TXA2 synthase protein expression was studied by Western blot analysis. In addition, the basal and clonidine-stimulated production of TXB2, the stable TXA2 metabolite, was also measured. In intact vessels from control male rats, the concentration-dependent constriction induced by clonidine was increased by both L-NAME or endothelial removal, unaltered by indomethacin and decreased by NS-398; in denuded vessels, the clonidine response was decreased by NS-398 and unaltered by L-NAME, indomethacin, SQ29,548 or furegrelate. In intact vessels from orchidectomized rats, the constriction induced by clonidine was increased by L-NAME but practically abolished by indomethacin or NS-398; in endothelially denuded segments the clonidine response was unaltered by L-NAME, but was decreased by indomethacin, NS-398, SQ29,548 or furegrelate. Orchidectomy failed to modify eNOS,COX-2 and TXA2 synthase expression, and increased basal and clonidine-stimulated TXB2 release. These results show that TXA2 produced in smooth muscle cells is increased in mesenteric arteries from orchidectomized rats compared to their controls, and that this prostanoid is functionally involved in the vasoconstrictor response to clonidine only in arteries from the orchidectomized rats.
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PMID:Orchidectomy modulates alpha2-adrenoceptor reactivity in rat mesenteric artery through increased thromboxane A2 formation. 1629 68

We examined whether nitric oxide (NO), derived from constitutive NO synthase (NOS) and/or inducible NOS (iNOS), could contribute to endotoxin-induced inflammatory hyperalgesia via interacting with nuclear factor-kappaB (NF-kappaB), inducible cyclooxygenase (COX-2) and/or polyADP-ribose synthase (PARS). Injection of endotoxin (10 mg kg(-1), i.p.) to mice elicited hyperalgesia, determined by hot plate test, which is prevented by NO precursor (L-arginine), cNOS/iNOS inhibitor (N(G)-nitro-L-arginine methyl ester; L-NAME), NF-kappaB inhibitor (N-acetylserotonin), COX inhibitor (indomethacin), COX-2 inhibitor (DFU) and PARS inhibitor (3-aminobenzamide). Endotoxin caused a decrease in serum nitrite levels prevented by N-acetylserotonin, L-arginine, indomethacin, DFU or 3-aminobenzamide. Endotoxin increased serum 6-keto-PGF(1alpha) levels diminished by L-arginine or aminoguanidine (iNOS inhibitor). L-Arginine, L-NAME, aminoguanidine, DFU or 3-aminobenzamide prevented endotoxin-induced decrease in heart, lungs, kidneys and brain nitrite and malonedialdehyde levels and myeloperoxidase activity. In conclusion, NO reverses endotoxin-induced inflammatory hyperalgesia via inhibition of prostacyclin production, and also contributes to the analgesic effect of NF-kappaB, COX or PARS inhibitors.
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PMID:Nitric oxide reverses endotoxin-induced inflammatory hyperalgesia via inhibition of prostacyclin production in mice. 1631 Mar 74

Calcium ions are widely accepted as critically important in responses of neurons to a stimulus. We have show previously the central involvement of angiotensin II (ANGII) in water intake. This study determined whether voltage-dependent calcium channels are involved in ANGII-induced behavioral drinking implicating nitrergic mechanism. The antidipsogenic actions of L-type calcium channel antagonists nifedipine, on ANGII-induced drinking behavior were studied when it is injected into the median preoptic nucleus (MnPO). The influence of nitric oxide (NO) on nifedipine antidipsogenic action was also studied by utilizing the N(W)-nitro-L-arginine methyl ester (L-NAME) a constitutive nitric oxide synthase inhibitor constitutive (cNOSI) and 7-nitroindazol (7-NIT) a specific neuronal nitric oxide synthase inhibitor (nNOSI) and L-arginine a NO donor. Rats 200-250 g, with cannulae implanted into MnPO, pre-treated into MnPO with either nifedipine, followed by ANGII, drank significantly less water than controls during the first 15 min after injection. However, L-NAME potentiated the dipsogenic effect of ANGII that is blocked by prior injection of nifedipine and L-arginine. 7-NIT injected prior to ANGII into MnPO also potentiated the dipsogenic effect of ANGII but with a less intensity than L-NAME that it is also blocked by prior injection of nifedipine. The results described in this paper provide evidence that calcium channels play important roles in the ANGII-induced behavioral water intake. The structures containing NO in the brain such as MnPO include both endothelial cells and neurons might be responsible for the influence of nifedipine on dipsogenic effect of ANGII. These data shows the correlation between L-type calcium channel and a free radical gas NO produced endogenously from amino acids L-arginine by endothelial and neuronal NO synthase in the control of ANGII-dipsogenic effect. This suggests that an L-type calcium channel participates in both short- and longer-term neuronal actions of ANGII by nitrergic way.
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PMID:L-type calcium channels mediate water intake induced by angiotensin injection into median preoptic nucleus. 1665 Aug 87

Nitric oxide (NO) plays a role in regulating the mucosal integrity of the stomach. However, its part in the mucosal defense of the inflamed stomach remains unclear. In the present study, we examined the effects of various NO synthase (NOS) inhibitors on gastric ulcerogenic and acid secretory responses following daily exposure of the stomach to iodoacetamide and investigated the role of each NOS isozyme in gastric protection from subchronic mucosal irritation. Gastric mucosal irritation was induced in rats by addition of 0.1% iodoacetamide to drinking water, and the gastric mucosa was examined on the 6th day. L-NAME (a nonselective NOS inhibitor: 20 mg/kg) or aminoguanidine (a selective iNOS inhibitor: 20 mg/kg) was given s.c. twice 24 h and 3 h before the termination of iodoacetamide treatment. Giving iodoacetamide in drinking water for 5 days produced minimal damage in the stomach with an increase in myeloperoxidase (MPO) activity and lipid peroxidation. Iodoacetamide treatment up-regulated the expression of iNOS mRNA and NO production in the stomach, without affecting nNOS expression. Both L-NAME and aminoguanidine markedly aggravated gastric lesions induced by iodoacetamide treatment, with a further enhancement in MPO activity and lipid peroxidation. Basal acid secretion as determined in pylorous-ligated stomachs was decreased following iodoacetamide treatment, but the response was significantly restored by both L-NAME and aminoguanidine. These results suggest that endogenous NO derived from both cNOS and iNOS is involved in mucosal defense of the inflamed stomach, partly by decreasing acid secretion, and contributes to maintaining mucosal integrity under such conditions.
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PMID:Role of endogenous nitric oxide in mucosal defense of inflamed rat stomach following iodoacetamide treatment. 1673 29

We examined the roles of nitric oxide (NO) and NO synthase (NOS) isozymes in the healing of indomethacin-induced small intestinal ulcers in rats. Animals were given indomethacin (10 mg/kg, s.c.) and killed 1, 4 and 7 days after the administration. Indomethacin (2 mg/kg), N(G)-nitro-L-arginine methyl ester (L-NAME: a nonselective NOS inhibitor: 10 mg/kg) and aminoguanine (a relatively selective iNOS inhibitor: 20 mg/kg) were given s.c. once daily for 6 days, the first 3 days or the last 3 days during a 7-day experimental period. Both indomethacin and L-NAME significantly impaired healing of these lesions, irrespective of whether they were given for 6 days, first 3 days or last 3 days. The healing was also impaired by aminoguanine given for the first 3 days but not for the last 3 days. Expression of iNOS mRNA in the intestine was up-regulated after ulceration, persisting for 2 days thereafter, and the Ca(2+)-independent iNOS activity also markedly increased with a peak response during 1-2 days after ulceration. Vascular content in the ulcerated mucosa as measured by carmine incorporation was decreased when the healing was impaired by indomethacin and L-NAME given for either the first or last 3 days as well as aminoguanidine given for the first 3 days. These results suggest that endogenous NO plays a role in healing of intestinal lesions, in addition to prostaglandins, yet the NOS isozyme mainly responsible for NO production differs depending on the stage of healing: iNOS in the early stage and cNOS in the late stage.
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PMID:Role of endogenous nitric oxide (NO) and NO synthases in healing of indomethacin-induced intestinal ulcers in rats. 1704 17

The aim of the present study was to examine the effect of the nitric oxide synthase (NOS) inhibitor N(omega)-nitro-l-arginine methyl ester (l-NAME) on skin and flap blood flow, NOS activity and flap survival in an ischaemic dorsal flap model in the rat. Fifty-four rats were used in the study. l-NAME or the inactive enantiomere d-NAME was given intravenously either pre-, per- and postoperatively or only postoperatively. Controls received saline treatment. Blood pressure and skin and flap blood flow were monitored. NOS activity was measured in intact skin before and after l-NAME and d-NAME infusion and in flap tissue 48h postoperatively. Forty-eight hours postoperatively flap survival was determined in all rats. l-NAME treatment caused: (1) a marked attenuation of constitutive Ca(2+) dependent NOS activity in intact skin (p<0.001), (2) an increase in blood pressure (p<0.05), (3) a decrease in blood flow in intact skin and in skin flaps (p<0.05), and (4) a decrease in flap survival (p<0.05). In saline and d-NAME treated animals no change in blood pressure, blood flow or NOS activity in intact skin was noted. In conclusion this study shows that l-NAME attenuates constitutive Ca(2+) dependent NOS activity in intact skin, decreases skin and flap blood flow and decreases the survival of skin flaps. These results indicate that constitutive nitric oxide synthase is important for basal blood flow in skin and flap tissue and for the survival of skin flaps.
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PMID:Effects of nitric oxide synthase inhibition on blood flow and survival in experimental skin flaps. 1729 87


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