Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The principal aim of this study was to examine the relative contributions from the neuronal and endothelial isoforms of nitric oxide synthase (nNOS and eNOS, respectively) in their capacity to modulate intra-ischemic cerebral blood flow (CBF) changes, in the ischemically vulnerable hippocampus and striatum. CBF changes were monitored, using laser-Doppler flowmetry, in rats subjected to 30 min of forebrain ischemia (right common carotid occlusion+hemorrhagic hypotension). Rats were pretreated with a selective nNOS inhibitor (ARR 17477), a NOS inhibitor that blocks both eNOS and nNOS (N(G)-nitro-L-arginine; L-NNA), or saline (control). In initial experiments, where ischemic MABP was targeted to exactly 30 mmHg, NOS inhibition reduced intra-ischemic cortical CBF from the control level of approximately 20% of baseline to 3% (L-NNA) or 6% (ARR 17477) of baseline. The statistically similar effects of the two NOS inhibitors confirmed that nNOS is the predominant NO source supporting intra-ischemic vasodilation in the cortex. In subsequent experiments, CBF was measured in the right hippocampus, and striatum, as well as the cortex, and, to reduce data variability, blood withdrawal was adjusted to achieve an intra-ischemic cortical CBF of 20% (controls) or 5% (NOS inhibited rats) of baseline. In those groups, mean ischemic MABP levels ranged from 28 to 32 mmHg. In controls, intra-ischemic CBF fell to 20%, 45%, and 47% of baseline in the cortex, hippocampus, and striatum, respectively. With nNOS inhibition, intra-ischemic CBF was further reduced to 5%, 15%, and 18% of baseline, respectively. However, with combined eNOS/nNOS inhibition, the CBF values were 5%, 37%, and 21%, respectively. These results suggest that the nNOS contribution to intra-ischemic vasodilation in vulnerable regions is substantially greater than eNOS. The significantly higher intra-ischemic CBF level in the hippocampus in combined eNOS/nNOS vs nNOS-inhibited rats may relate, in contrast to other regions, to a low eNOS influence on vascular function in that structure and CBF redistribution to the hippocampus when eNOS activity is blocked globally.
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PMID:Relative contributions from neuronal and endothelial nitric oxide synthases to regional cerebral blood flow changes during forebrain ischemia in rats. 1084 75

The role of neuronally derived nitric oxide (NO) in neurotransmission and neural injury remains an area of active investigation. NO generation has been postulated to be involved in the deleterious events surrounding ischemia/reperfusion injury either directly or via the production of more reactive oxidants such as peroxynitrite. In our search for novel therapeutics for the treatment of a variety of neurological diseases including stroke, we have discovered novel, potent, and selective inhibitors of the neuronal nitric oxide synthase (nNOS) isoform. These compounds have proven to be effective in models of ischemia/reperfusion supporting the role of nNOS in these processes. The effects of these compounds as well as additional aspects critical to their development will be presented.
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PMID:Discovery and development of neuronal nitric oxide synthase inhibitors. 1092 71

Preconditioning stress induced by a transient ischemia may increase brain tolerance to oxidative stress, and the underlying neuroprotective mechanisms are not well understood. In a series of experiments, we found that endogenous nitric oxide (NO), S-nitrosoglutathione (GSNO), and antioxidants blocked serum deprivation-induced oxidative stress and apoptosis in human neuroblastoma cells. Similar to nuclear redox factor-1 (Ref-1), mRNA of human neuronal nitric oxide synthase (hNOS1) was maximally up-regulated within 2 h after oxidative stress and down-regulated by NO/GSNO and hydroxyl radical (OH) scavenger. A brief preconditioning stress induced by serum deprivation for 2 h caused a delayed increase in the expression of hNOS1 protein and the associated formation of NO and cGMP, which in turn decreased OH generation and stress-related cell death. In addition to inhibiting caspase-3 through a dithiothreitol-sensitive S-nitrosylation process, preconditioning stress concomitantly up-regulated the expression of the anti-apoptotic bcl-2 protein and down-regulated the p66shc adaptor protein. This beneficial cytoprotective process of preconditioning stress is mediated by newly synthesized NO because it can be suppressed by the inhibition of hNOS1 and guanylyl cyclase. Therefore, the constitutive isoform of hNOS1 is dynamically redox-regulated to meet both functional and compensatory demands of NO for gene regulation, antioxidant defense, and tolerance to oxidative stress.
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PMID:Preconditioning regulation of bcl-2 and p66shc by human NOS1 enhances tolerance to oxidative stress. 1102 98

Despite the emergence of therapies for hypoxic-ischemic injury to the mature nervous system, there have been no proven efficacious therapies for the developing nervous system. Recent studies have shown that pharmacological blockade of neuronal nitric oxide synthase (nNOS) activity can ameliorate damage after ischemia in the mature rodent. We have previously shown that elimination of nNOS neurons, either by targeted disruption of the gene or by pharmacological depletion with intraparenchymal quisqualate, can decrease injury after hypoxia-ischemia. Using a simpler pharmacological approach, we studied the efficacy of a systemically administered NOS inhibitor, 7-nitroindazole, a relatively selective inhibitor of nNOS activity. Using multiple doses and concentrations administered after the insult, we found that there was only a trend for protection with higher doses of the drug. A significant decrease in NOS activity was seen at 18 h and 5 days in the cortex, and at 2 h and 18 h in the hippocampus after the hypoxia-ischemia. nNOS expression decreased and remained depressed for at least 18 h after the insult. When nNOS expression was normalized to MAP2 expression, a decrease was seen at 18 h in the cortex and at 2 and 18 h in the hippocampus. These data suggest that further inhibition of NOS activity at early timepoints may not provide substantial benefit. At 5 days after the insult, however, NOS activity and normalized nNOS expression returned to baseline or higher in the hippocampus, the region showing the most damage. These data suggest that delayed administration of nNOS inhibitor after hypoxic-ischemic injury might be beneficial.
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PMID:Nitric oxide synthase activity and inhibition after neonatal hypoxia ischemia in the mouse brain. 1104 40

Tamoxifen (TAM), a widely used non-steroidal anti-estrogen, has recently been shown to be neuroprotective in a rat model of reversible middle cerebral artery occlusion (rMCAo). Tamoxifen has several potential mechanisms of action including inhibition of the release of excitatory amino acids (EAA) and nitric oxide synthase (NOS) activity. The question addressed in this study was whether TAM reduces ischemia-induced production of nitrotyrosine, considered as a footprint of the product of nitric oxide and superoxide, peroxynitrite. In rat brain, 2 h rMCAo produced a time-dependent increase in nitrotyrosine content in the cerebral cortex, as measured by Western blot analysis. Compared with vehicle, TAM significantly reduced nitrotyrosine levels in the ischemic cortex at 24 h. The neuronal (n)NOS inhibitor, 7-nitroindazole also tended to reduce nitrotyrosine, but this reduction was not statistically significant. Immunostaining for nitrotyrosine was seen in cortical neurons in the MCA territory and this immunostaining was reduced by TAM. In vitro, TAM and the calmodulin inhibitor trifluoperazine inhibited, with similar EC(50) values, the activity of recombinant nNOS as well as NOS activity in brain homogenates, measured by conversion of [(3)H]arginine to [(3)H]citrulline. There was marginal inhibition of recombinant inducible (i)NOS activity up to 100 microM TAM. These data suggest that TAM is an effective inhibitor of Ca(2+)/calmodulin-dependent NOS and the derived peroxynitrite production in transient focal cerebral ischemia and this may be one mechanism for its neuroprotective effect following rMCAo.
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PMID:Tamoxifen inhibits nitrotyrosine formation after reversible middle cerebral artery occlusion in the rat. 1125 2

In response to oxidative stress, the ischemic brain induces immediate early genes when its nuclear genes contain gene damage. Antioxidant that reduces gene damage also reduces cell death. To study the mechanism of neuronal sensitivity, we investigated the transcription of the c-fos gene after brain injury of the ischemia-reperfusion type using focal cerebral ischemia-reperfusion in Long-Evans hooded rats. We observed a significant (p < 0.01) increase in c-fos mRNA in the ischemic cortex immediately after brain injury. However, the c-fos transcript was sensitive to RNase A protection assay (RPA) upon reperfusion. The transcript became significantly resistant to RPA (42%, p < 0.03) when 3-bromo-7-nitroindazole (25 mg/kg, i.p.), known to abolish nitric oxide, gene damage and neuronal sensitivity, was injected. Our data suggest that neuronal nitric oxide synthase and aberrant mRNA from genes with oxidative damage could be associated with neuronal sensitivity.
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PMID:Neuronal NOS inhibitor that reduces oxidative DNA lesions and neuronal sensitivity increases the expression of intact c-fos transcripts after brain injury. 1145 96

Expressional patterns of the endothelial and neuronal forms of nitric oxide synthase (NOS) in cerebral ischemia were studied utilizing a permanent middle cerebral artery occlusion (PMCAO) model. Motor performance and infarct volumes were determined in the rats. Immunohistochemical staining for eNOS, nNOS and neurofilament were performed at 1, 2, 3, 5, 7 and 14 days after PMCAO. Vascular endothelial growth factor (VEGF) expression was determined by in-situ hybridization. PMCAO caused a reproducible cortical infarct with motor deficits in the rats. Double immunohistochemical stainings indicated that eNOS and nNOS were induced in ischemic neurons. Most stained neurons were positive for both NOS forms but some reacted with only one NOS antibody. nNOS expression peaked at 24-48 h after PMCAO, stained mainly the cytoplasm of core neurons, and disappeared after the 3rd day. eNOS expression increased until the 7th day, stained mainly the cytoplasm and membrane of penumbral cells and disappeared by the 14th day after PMCAO. VEGF expression was significantly induced in the penumbral zone in a similar distribution to eNOS. The anatomical and temporal pattern of VEGF and eNOS induction in the brain after permanent ischemia suggest that these mediators may play a role in protecting penumbral tissue from additional ischemic damage.
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PMID:Expression of endothelial nitric oxide synthase in the ischemic penumbra: relationship to expression of neuronal nitric oxide synthase and vascular endothelial growth factor. 1147 16

This study examined mRNA and protein expressions of neuronal (nNOS), inducible (iNOS), and endothelial nitric oxide synthases (eNOS) in peripheral nerve after ischemia-reperfusion (I/R). Sixty-six rats were divided into the ischemia only and I/R groups. One sciatic nerve of each animal was used as the experimental side and the opposite untreated nerve as the control. mRNA levels in the nerve were quantitatively measured by competitive PCR, and protein was determined by Western blotting and immunohistochemical staining. The results showed that, after ischemia (2 h), both nNOS and eNOS protein expressions decreased. After I/R (2 h of ischemia followed by 3 h of reperfusion), expression of both nNOS and eNOS mRNA and protein decreased further. In contrast, iNOS mRNA significantly increased after ischemia and was further upregulated (14-fold) after I/R, while iNOS protein was not detected. The results reveal the dynamic expression of individual NOS isoforms during the course of I/R injury. An understanding of this modulation on a cellular and molecular level may lead to understanding the mechanisms of I/R injury and to methods of ameliorating peripheral nerve injury.
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PMID:Gene and protein expressions of nitric oxide synthases in ischemia-reperfused peripheral nerve of the rat. 1150 62

We investigated the expression and cellular localization of neuronal nitric oxide synthase (nNOS) in the rat retina, following ischemic injury induced by transient increase of intraocular pressure. In the normal retina, nNOS immunoreactivity was localized to certain populations of amacrine cells, displaced amacrine cells and a few bipolar cells. Following transient ischemia, retinal neurons expressing the immunoreactivity increased and peaked three days after reperfusion. Quantitative evaluation using immunoblotting confirmed that nNOS expression showed a peak value (500% of control levels) at 3 days, and then decreased again to 150% of controls by 4 weeks after reperfusion. Our findings suggest that this over-produced NO may act as a neurotoxic agent in the ischemic rat retina.
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PMID:The regulatory expression of neuronal nitric oxide synthase in the ischemic rat retina. 1171 91

Excitotoxic neuronal cell death is characterized by an overactivation of glutamate receptors, in particular of the NMDA subtype, and the stimulation of the neuronal nitric oxide synthase (nNOS), which catalyses the formation of nitric oxide (NO) from l-arginine (L-Arg). At low L-Arg concentrations, nNOS generates NO and superoxide (O2(.)(-)), favouring the production of the toxin peroxynitrite (ONOO-). Here we report that NMDA application for five minutes in the absence of added L-Arg induces neuronal cell death, and that the presence of L-Arg during NMDA application prevents cell loss by blocking O2(.)(-) and ONOO- formation and by inhibiting mitochondrial depolarization. Because L-Arg is transferred from glial cells to neurons upon activation of glial glutamate receptors, we hypothesized that glial cells play an important modulator role in excitotoxicity by releasing L-Arg. Indeed, as we further show, glial-derived L-Arg inhibits NMDA-induced toxic radical formation, mitochondrial dysfunction and cell death. Glial cells thus may protect neurons from excitotoxicity by supplying L-Arg. This potential neuroprotective mechanism may lead to an alternative approach for the treatment of neurodegenerative diseases involving excitotoxic processes, such as ischemia.
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PMID:Glial-derived arginine, the nitric oxide precursor, protects neurons from NMDA-induced excitotoxicity. 1186 Apr 70


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