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: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of an nitric oxide synthase in the deutocerebrum of the crayfish Pacifastacus leniusculus was investigated with histochemical and biochemical methods. By using the NADPH-diaphorase histochemical reaction, known as a selective marker for NO synthase in mammals, it was possible to localize specific neuronal elements in the crayfish. Pronounced diaphorase-staining was observed in peripheral olfactory sensory cells and in the neuropil of the olfactory lobes. Less intense diaphorase-staining also occurred in other deutocerebral neuropils, such as the accessory lobes, the lateral antennular neuropil and in the deutocerebral commissure neuropil. The biochemical assay revealed a calcium/calmodulin-dependent formation of citrulline from L-arginine in brain homogenate. It was also possible to show that the selective NO synthase inhibitor L-NOARG decreased the formation of citrulline. These data indicate a role for NO as an intercellular messenger in the crayfish.
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PMID:NADPH-diaphorase histochemistry and nitric oxide synthase activity in deutocerebrum of the crayfish, Pacifastacus leniusculus (Crustacea, Decapoda). 752 13

Citrulline formation by the Ca2+ CaM-dependent nitric oxide synthase of bovine endothelium is inhibited reversibly by 7-nitroindazole, 1-phenylimidazole, and imidazole. As measured at 0.67 microM (6R)-5,6,7,8-tetrahydrobiopterin (BH4), IC50 values of 0.8, 200, and 50 microM were determined for 7-nitroindazole, 1-phenylimidazole, and imidazole, respectively. Increasing concentrations of added BH4 cofactor increased the IC50 values for 7-nitroindazole and 1-phenylimidazole but did not alter the IC50 value for imidazole. 7-nitroindazole inhibited citrulline formation by the endothelial cNOS noncompetitively versus arginine substrate but competitively versus BH4 with a Ki value of 0.8 microM. 1-Phenylimidazole inhibited citrulline formation by the endothelial cNOS competitively versus both arginine substrate and BH4 with a Ki value of 50 microM. Imidazole inhibited citrulline formation competitively versus arginine substrate but noncompetitively versus BH4 with a Ki value of 50 microM. Neither 7-nitroindazole, 1-phenylimidazole, nor imidazole inhibited the cytochrome c reductase activity of endothelial cNOS at concentrations up to 5000-fold higher than their Ki values for inhibition of citrulline formation. By comparison with the previously determined kinetic properties of the other nitric oxide synthase isoforms, these observations establish that 1-phenylimidazole displays marked specificity for inhibiting the inducible nitric oxide synthase isoform and, since 7-nitroindazole has been reported not to elevate blood pressure (McCall et al., 1991, Br. J. Pharmacol. 102, 234-238), fails to confirm the expected insensitivity of the constitutive endothelial nitric oxide synthase to inhibition by 7-nitroindazole.
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PMID:The inhibition of the constitutive bovine endothelial nitric oxide synthase by imidazole and indazole agents. 752 99

Aminoguanidine produces a time-dependent inactivation of the citrulline forming activity of all three nitric oxide synthase isoforms that is blocked by arginine. Aminoguanidine inactivates both the NADPH oxidase and citrulline forming activities of GH3 pituitary constitutive nitric oxide synthase (cNOS) but does not alter its cytochrome c reductase activity. GH3 pituitary cells contain an NOS isoform identical physically, kinetically, and immunologically to cerebellar neuronal NOS (Wolff and Datto, Biochemical J. (1992) 285, 201-206). The inactivation of GH3 cNOS NADPH oxidase activity, as measured without added tetrahydrobiopterin cofactor, is saturable, is inhibited by arginine, and follows pseudo-first-order kinetics with an inactivation rate constant of 0.25 min-1 and a Ki value of 0.83 mM aminoguanidine. The inactivation of the citrulline forming activity of GH3 cNOS by aminoguanidine was not saturable by aminoguanidine. Aminoguanidine, at concentrations in the millimolar range, inhibited the citrulline forming activity of endothelial cNOS by an apparently nonsaturable mechanism. Aminoguanidine inactivates the citrulline forming activity of murine macrophage iNOS. The inactivation is saturable and follows pseudo-first-order kinetics with an inactivation rate constant of 0.46 min-1 and a Ki value of 16 microM. The inactivation of the constitutive isoforms of nitric oxide synthase by aminoguanidine required the concurrent presence of Ca2+, calmodulin, NADPH, tetrahydrobiopterin, and oxygen in preincubations and was not reversed either by dilution or dialysis. These observations support the assertion that aminoguanidine is a mechanism-based inactivator of the nitric oxide synthase isoforms and exhibits marked specificity for the inactivation of the inducible isoform.
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PMID:Aminoguanidine is an isoform-selective, mechanism-based inactivator of nitric oxide synthase. 753 Sep 37

The novel gaseous neuromediator nitric oxide is thought to play an important role in development and plasticity. Despite this, gene-knockout mice lacking neuronal (Type I) nitric oxide synthase exhibit relatively normal brain development and behavior. The nervous system of these mice (especially the forebrain) retains some calcium-dependent nitric oxide synthesis, presumably reflecting other isozymes. Type I nitric oxide synthase has NADPH-dependent diaphorase activity. However, this stain also recognizes other isozymes, and it remains controversial whether all diaphorase-positive neurons contain Type I nitric oxide synthase. To assess whether neurons containing another isoform of nitric oxide synthase may be present in the forebrain of normal rodents, we studied co-localization of diaphorase staining with immunocytochemistry for Type I nitric oxide synthase. Co-localization was complete in the striatum, but some neurons deep in cortex were diaphorase-positive and immunonegative, and therefore may contain a splice variant or novel isozyme of nitric oxide synthase.
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PMID:Type I nitric oxide synthase fully accounts for NADPH-diaphorase in rat striatum, but not cortex. 753 7

Nitric oxide, a gaseous inter- and intracellular messenger, is thought to mediate neurotoxicity via excitatory amino acid receptors which may contribute to the pathogenesis of a variety of neuronal diseases. Excitotoxin lesions induced by quinolinic acid were made unilaterally in the rat striatum to study biochemically, light- and electron microscopically the possible involvement of the nitric oxide synthesizing enzyme nitric oxide synthase in degeneration processes. 5 days after quinolinic acid injection nitric oxide synthase activity in the striatum was elevated to 196.5% (P < 0.005% as compared to controls). There was no requirement of Ca2+ for the enzyme activity measured indicating that the elevation is due to the inducible isoform of nitric oxide synthase. Parallel to the depletion of neurons by quinolinic acid a massive gliosis was seen. Whereas quiescent astroglial cells in the normal striatum did not show any light microscopically detectable nicotinamide adenine dinucleotide phosphate diaphorase reaction, reactive astroglia revealed a substantial labeling distributed over the cell body and their stellar processes. Within the lesion and, particularly, close to the needle tract the number of microglia/macrophages labeled by isolectin B4 increased dramatically. Reactive microglial cells macrophages, situated along the needle tract and characterized by a pseudopodic or a globular shape, contained highest staining activity. At the ultrastructural level only disintegrated, if any, neuronal perikarya were seen five days after quinolinic acid injection while numerous reactive glial cells were observed. Reactive astroglia showed nicotinamide adenine dinucleotide phosphate diaphorase activity by displaying a substantial labeling of the nuclear envelope and endoplasmic membranes. Occasionally stained mitochondria were encountered. Globular-shaped (ameboidal) microglia near the needle tract were rich in phagocytotic debris and, apart from formazan-positive endomembranes, their plasmalemma was often nicotinamide adenine dinucleotide phosphate diaphorase stained. Additionally, in those cells regions of highly electron-dense puncta were seen which differ sharply from other cytoplasmic areas. Such sand-like accumulations of nicotinamide adenine dinucleotide phosphate diaphorase positive grains have never been observed in other cell types, indicating a special type of nitric oxide synthase representation, possibly that of the inducible isoform.
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PMID:Evidence for bidirectional changes in nitric oxide synthase activity in the rat striatum after excitotoxically (quinolinic acid) induced degeneration. 754 91

There have been considerable interlaboratory variations in the reported levels of rat brain microsomal cytochrome P450 and associated monooxygenase activities. To ascertain if the variability could be accountable, at least in part, to different methodologies used for microsome preparation, cytochrome P450 monooxygenase components and activities were directly compared herein using brain microsome prepared by various methods. Rat brain microsome isolated using a calcium aggregation method in the presence of dithiothreitol and glycerol contained approximately 100 pmol of cytochrome P450/mg protein. Considerably lower cytochrome P450 levels (e.g. 20-40 pmol/mg protein) were found in brain microsome prepared in a more conventional manner using Tris or phosphate buffers without glycerol and dithiothreitol. The NADPH cytochrome c reductase activity was consistently approximately 23-25 nmol of cytochrome c reduced/min/mg protein, whatever the method of preparation of the brain microsome. Cytochrome P450-associated monooxygenase activities, namely morphine N-demethylase and ethoxycoumarin O-deethylase, were dependent on the amount of protein in the incubation medium, the length of incubation, and the ratio of the concentration of the substrate to the amount of protein in the incubation mixture. The specific activity of morphine N-demethylase was constant over a range of protein concentration, if the ratio of the concentration of the substrate to the protein was kept constant.
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PMID:Rat brain cytochrome P450. Reassessment of monooxygenase activities and cytochrome P450 levels. 758 47

The distribution of the enzyme nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase was examined histochemically in the retina, iris, ciliary processes, cornea and conjunctiva of the rabbit eye. The epithelial cells of the ciliary process, iris, conjunctiva and, to a lesser extent, the cornea all showed intense staining. In the retina, staining for NADPH diaphorase was intense in the inner segments of the photoreceptors and a sparsely distributed population of amacrine cells. In addition, another population of amacrine cells, some presumed ganglion cells as well as a number of horizontal cells, stained less intensely for the enzyme. The retina, ciliary processes and, as a comparison, the cerebellum of the rabbit all contain nitric oxide synthetase (NOS) activity, as each tissue can metabolize citrulline from arginine. This process is Ca2+ dependent and is reduced by the NOS inhibitor, NG-monomethyl-L-arginine. The presence of NOS activity in the ciliary processes and the localization of NADPH diaphorase in the ciliary epithelial cells are of significance as they suggest that the ciliary epithelial cells may contain NOS which would imply a role for nitric oxide in aqueous humour production.
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PMID:NADPH diaphorase localization and nitric oxide synthetase activity in the retina and anterior uvea of the rabbit eye. 768 32

The salivary glands of the hematophagous insect, Rhodnius prolixus, contain a nitrosylhemeprotein that dissociates its ligand, NO, to the host tissues while the insect is searching for a blood meal. We now report a salivary nitric oxide synthase activity in this insect. The activity is dependent on NADPH, FAD, tetrahydrobiopterin, calmodulin, Ca2+, and converts arginine to citrulline while producing vasorelaxing activity. Molecular sieving indicates a molecular weight of 185 kDa, coeluting with a diaphorase activity. Results indicate similarity of this insect activity to the vertebrate constitutive NO synthase, suggesting NO synthesis is an evolutionary old biological pathway.
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PMID:Nitric oxide synthase activity from a hematophagous insect salivary gland. 768 81

Change in cytosolic calcium ion level ([Ca2+]) after glutamate exposure was evaluated using fluo-3 on rat cortical neurons. The result showed that neurons that contain nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) were capable of blocking glutamate-induced rise in [Ca2+]. However, with the inhibitor of nitric oxide synthase, NADPH-d-positive cells lost their ability to regulate [Ca2+], suggesting a possible role of nitric oxide in protecting this distinct class of neurons from glutamate neurotoxicity by inhibiting glutamate-induced calcium influx.
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PMID:Endogenous nitric oxide blocks calcium influx induced by glutamate in neurons containing NADPH diaphorase. 769 7

Changes in the concentrations of intracellular free calcium ([Ca2+]i) and adenine nucleotides were determined in response to metabolic inhibitors in the motoneuron cell line NSC-19. The NADH dehydrogenase inhibitor amobarbital (Amytal) and the mitochondrial uncoupler carbonylcyanide m-chlorophenylhydrazone (CCCP) were used to alter energy metabolism. Exposure of cells to 5 mM Amytal did not significantly change ATP concentrations but produced transient elevations of [Ca2+]i of approximately 80 nM, which were reduced by 32% when cells were studied in Ca(2+)-free solutions. CCCP (10 microM) caused a transient reduction in ATP concentration of 33%. CCCP also produced sustained elevations of [Ca2+]i of about 280 nM, which were reduced by 47% when in Ca(2+)-free solutions. In spite of the sustained elevation of [Ca2+]i induced by CCCP, NSC-19 showed no reduction in cell viability after 48 h compared with controls. Ruthenium red, a blocker of Ca2+ uptake by mitochondria, had little effect on the CCCP-induced [Ca2+]i increment. KCl or glutamate did not produce significant changes in [Ca2+]i, indicating that these cells do not possess significant numbers of voltage-dependent Ca2+ channels or excitatory amino acid receptor-gated channels. [Ca2+]i values in these cells were modified by changes in extracellular Ca2+ concentrations. In Ca(2+)-containing solutions, inhibition of Na+/Ca2+ exchange by amiloride and bepridil led to increased [Ca2+]i, as did blockade of Ca2+ ATPase by vanadate, suggesting that membrane transporters are important in Ca2+ efflux in NSC-19. The present studies indicate that exposure of NSC-19 cells to Amytal and CCCP produces Ca2+ increments by release from internal stores, as well as by transmembrane influx. These results demonstrate that small increments in [Ca2+]i can be produced by metabolic inhibitors or other compounds and that such changes are not associated with immediate cell death. Changes in [Ca2+]i could potentially result in abnormal cell function secondary to altered action of Ca(2+)-dependent enzymes.
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PMID:Intracellular calcium concentrations during metabolic inhibition in the motoneuron cell line NSC-19. 782 81


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