Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.99.1 (NADPH-diaphorase)
 3,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cholinergic neurons located within the pedunculopontine nucleus (Ch5) of patients with Alzheimer's disease (AD; n = 15), Parkinson's disease (PD; n = 2), and neurologically normal (n = 6) subjects were visualized immunohistochemically using choline acetyltransferase, pharmacohistochemically using acetylcholinesterase, or by reduced histochemical methods using nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). Each histochemical procedure localized a well-delineated, compact lateral group and a more diffuse medial group of neurons within the pedunculopontine nucleus. Co-localization experiments revealed that all three enzymes marked the same population of cholinergic neurons. The extent of pathological alterations associated with the cholinergic neurons within the compact lateral sector of the pedunculopontine nucleus was examined in sections that reacted for NADPH-d, counterstained with thioflavin-S. The average number of neurofibrillary tangles within this portion of the pedunculopontine nucleus was 25.4 (range 0-70) in patients with AD, 1.5 (range 1-2) in those with PD, and 1.2 (range 0-4) in aged control subjects. Of the total number of neurofibrillary tangles counted in AD cases, 72.7% were end-stage ghosts and 27.3% were tangle-bearing neurons. The pathological alteration of cholinergic neurons of the compact lateral aspect of the pedunculopontine nucleus may play a role in some of the behavioral features characteristic of AD.
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PMID:Neurofibrillary tangles in cholinergic pedunculopontine neurons in Alzheimer's disease. 320 15

Walker tumour cells in vivo or in vitro are exceptionally sensitive to the monofunctional alkylating agent 5-(aziridin-1-yl)-2,4-dinitrobenzamide (CB 1954) (Cobb LM et al., Biochem Pharmacol 18: 1519-1527, 1969). CB 1954 forms DNA interstrand crosslinks in a time-dependent manner in Walker tumour cells but not in non-toxically affected Chinese hamster V79 cells [(Roberts JJ et al., Biochem Biophys Res Commun 140: 1073-1078, 1986)]. However, co-culturing Chinese hamster V79 cells with Walker cells in the presence of CB 1954 renders the hamster cells sensitive to CB 1954 and leads to the formation of interstrand crosslinks in their DNA, findings indicative of the formation by Walker cells of a diffusible toxic metabolite of CB 1954. A flavoprotein, of molecular weight 33.5 kDa as estimated by SDS-polyacrylamide gel electrophoresis, has been isolated from Walker cells and identified as a form of NAD(P)H dehydrogenase (quinone) (DT diaphorase, EC 1.6.99.2). This enzyme, in the presence of NADH or NADPH, catalyses the aerobic reduction of CB 1954 to 5-(aziridin-1-yl)-4-hydroxylamino-2-nitrobenzamide. This new compound can form interstrand crosslinks in the DNA of Chinese hamster V79 cells to which it is also highly toxic.
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PMID:A new cytotoxic, DNA interstrand crosslinking agent, 5-(aziridin-1-yl)-4-hydroxylamino-2-nitrobenzamide, is formed from 5-(aziridin-1-yl)-2,4-dinitrobenzamide (CB 1954) by a nitroreductase enzyme in Walker carcinoma cells. 320 2

Yeast glutathione reductase exists in a single molecular form which exhibits preferred NADPH and weak NADH linked multifunctional activities. Kinetic parameters for the NADPH and NADH linked reductase, transhydrogenase, electron transferase and diaphorase reactions have been determined. The functional preference for the NADPH linked reductase reaction is kinetically related to the high catalytic efficiency and low dissociation constants for substrates. NADP+ and NAD+ may interact with two different sites or different kinetic forms of the enzyme. The active site disulfide and histidine are required for the reductase activity but are not essential to the transhydrogenase, electron transferase and diaphorase activities. Amidation of carboxyl groups and Co(II) chelation of glutathione reductase facilitate the electron transferase reaction presumably by encouraging the formation of an anionic flavosemiquinone.
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PMID:Multifunctional activities of yeast glutathione reductase. 329 44

Morphological and functional differentiation of hemopoietic cells is accompanied by the expression of lineage-specific protein markers. NADPH-oxidoreductive enzymatic activities in HL 60 and K 562 leukemic cell lines, compared with granulocytes and erythrocytes, show a NADPH-oxidizing and a NADPH-diaphorase activity. The oxidizing activity, absent in erythrocytes, has the same electrophoretic migration in HL 60 cells and granulocytes while it is different in K 562 cells. The diaphorase, absent in HL 60 cells and granulocytes, has the same migration in erythrocytes and K 562 cells, although with a slightly different quantitative expression. K 562 cells induced to differentiation with arabinofuranosylcytosine show the appearance of a band of NADPH-oxidizing activity of granulocytic type, together with the major band found in these cells.
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PMID:Electrophoretic pattern of NADPH-dependent oxidoreductive activities in K 562 and HL 60 leukemic cell lines. 334 52

An enzyme responsible for the NADPH-dependent reduction of nitroblue tetrazolium HCl (NBT) has been isolated from rat brain. Although other tetrazolium salts could be utilised, NBT was the preferred substrate, and the enzyme had an absolute requirement for NADPH. An in vitro assay was developed and used to determine the kinetic constants: Km NBT = 17.3 microM; Km NADPH = 1.9 microM, Vmax = 30.8 mumol product produced/min/mg protein. Substrate inhibition by NADPH was observed in some instances. Brain subcellular fractionation indicated highest enzyme activities in the microsomal fraction. Activity was present in all brain regions and in a variety of peripheral tissues. Relative molecular mass determinations of the native enzyme yielded an Mr = 170-180,000. It seems likely that the enzyme activity described in this study relates directly to the histochemical demonstration of brain NADPH-diaphorase-positive neurons. As yet, the natural substrate for the enzyme is unknown. However, the isolation and purification of NADPH-dependent diaphorase may be anticipated to assist in the elucidation of its function in the brain, and in the special characteristics of those neurons that contain the enzyme in abundance.
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PMID:Demonstration and biochemical characterisation of rat brain NADPH-dependent diaphorase. 334 67

Quantitative concentration-toxicity relationships were determined for the injury of cultured murine cortical neurons by several excitatory amino acid (EAA) agonists. All tested agonists produced concentration-dependent neuronal injury at concentrations between 1 and 1000 microM. With 5 min exposure, glutamate, aspartate, N-methyl-D-aspartate (NMDA), L-homocysteate (HCA), and quisqualate all had similar potencies, destroying half of the neuronal population (LD50) at concentrations of 50-200 microM, and similar efficacies, with 88-92% neuronal loss produced by exposure to high agonist concentrations. Quinolinate and kainate were substantially weaker toxins, producing only 20-30% neuronal loss after 5 min exposure to 3 mM concentrations; with prolonged (24 hr) exposure, 85-95% neuronal loss could be attained. The comparative EAA vulnerability of a specific cortical neuronal subpopulation containing high concentrations of the enzyme, reduced nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d), was also examined. Glutamate had no differential toxicity on these cells, damaging them at all concentrations in proportion to the general population; however, other, more selective, agonists produced strikingly differential injuries. These NADPH-d-containing [NADPH-d(+)]neurons were selectively resistant to damage by low concentrations of the NMDA agonists quinolinate, HCA, aspartate, or NMDA itself. By contrast, NADPH-d(+)neurons were selectively destroyed by concentrations of quisqualate or kainate too low to produce much general neuronal injury. The differential susceptibility of these neurons was not absolute, as high concentrations of all tested agonists produced nonselective neuronal injury. In light of recent evidence that forebrain NADPH-d(+)neurons are selectively spared in Huntington's disease, the present study continues to support the hypothesis that neuronal loss in Huntington's disease might result from excessive NMDA-receptor stimulation by any selective NMDA agonist. Furthermore, the demonstration that the differential susceptibility of NADPH-d(+)neurons is agonist concentration-dependent, rather than absolute, could provide a basis for explaining some existing conflicting experimental data.
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PMID:Vulnerability of cultured cortical neurons to damage by excitotoxins: differential susceptibility of neurons containing NADPH-diaphorase. 338 92

1. The activities of pyruvate:methyl viologen oxidoreductase (EC 1.2.7.1), hydrogenase (EC 1.18.99.1), NADH:methyl viologen oxidoreductase (EC 1.6.99.3), NADPH:methyl viologen oxidoreductase (EC 1.6.99.1), NADH oxidase (EC 1.6.99.3) and NADPH oxidase (EC 1.6.99.1) were determined for Trichomonas vaginalis, Tritrichomonas foetus and Trichomitus batrachorum. 2. The three trichomonad species were found to differ significantly, especially with respect to NADH oxidase and NADH:methyl viologen oxidoreductase activities. 3. The species differences in ferredoxin-linked and oxygen-metabolising enzymes may be related to the ways in which the trichomonads are adapted for growth in their respective hosts.
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PMID:Comparative study of ferredoxin-linked and oxygen-metabolizing enzymes of trichomonads. 349 72

Left cervical vagotomy increased NADPH-diaphorase (NADPH-d) histochemical staining in neuronal perikarya of the ipsilateral dorsal motor nucleus of the vagus (dmnX) and the rostral part of the nucleus ambiguus (nAmb). This effect appeared by 2 days, was maximal around 10 days, and declined by 30 days after vagotomy. Light and dark stained perikarya occurred in dmn X ipsilateral to the vagotomy which could not be explained on the basis of the biochemical or transmitter content of these neurons. It is unlikely that the increases of NADPH-d activity resulted from changes in cholinergic transmission since vagotomy is known to decrease cholinergic enzyme function. Since vagotomy increased both the glucose metabolic rate and NADPH-d staining of dmnX and nAmb in these experiments, it is more likely that these effects represent regenerative metabolic responses to axotomy.
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PMID:Axotomy increases NADPH-diaphorase staining in rat vagal motor neurons. 358 Sep 11

Thirty-six wild-caught woodchucks (Marmota monax) were characterized according to sex, weight, trapping locality, liver pathology, and serum or hepatic markers of woodchuck hepatitis virus. Liver subcellular fractions were assayed for microsomal cytochromes P-450, aryl hydrocarbon hydroxylase, glutathione, cytosolic enzymes involved in its metabolism (glutathione S-transferase, glutathione peroxidase, and glutathione reductase), in the hexose monophosphate shunt (glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase), NADH- and NADPH-dependent diaphorases, and DT diaphorase. Moreover, liver postmitochondrial fractions were assayed for their ability to activate procarcinogens [i.e., a tryptophan pyrolysate product, aflatoxin B1, 2-aminofluorene, and trans-7,8-dihydrobenzo(a)pyrene] to mutagenic metabolites in the Ames reversion test and to decrease the activity of direct-acting mutagens [i.e., 4-nitroquinoline N-oxide, 2-methoxy-6-chloro-9-[3-(2-chloroethyl)aminopropylamino]acridine X 2HCl, and sodium dichromate]. A considerable interindividual variability in metabolism was observed among the examined woodchucks. Some of the investigated parameters were more elevated in virus carriers, especially in those suffering from chronic active hepatitis, but only a few of the recorded differences (i.e., oxidized glutathione reductase and NADPH-dependent diaphorase) were statistically significant. The comparison of the monitored activities in woodchucks and in other rodent species (rat and mouse) led to the conclusion that the liver metabolism of mutagens and carcinogens in woodchucks is more oriented in the sense of activation, while detoxification mechanisms are more efficient in rats and mice.
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PMID:Metabolism of mutagens and carcinogens in woodchuck liver and its relationship with hepatitis virus infection. 360 50

The substantia innominata encompasses an area of the basal forebrain that is ventral to the lenticular nucleus and anterior commissure, medial to the claustrum and external capsule, and lateral to the hypothalamus. The nucleus basalis of Meynert consists primarily of large acetylcholinesterase (AchE)-positive neurons embedded within the substantia innominata. Damage to these neurons may be important in the pathogenesis of cortical dysfunction in Alzheimer's disease. In order to characterize other neuronal elements in the substantia innominata and their relationship to the nucleus basalis, we chose to study a biochemically distinct neuronal subset containing the enzyme nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). The substantia innominata was blocked from six normal brains obtained postmortem and fixed in neutral-buffered formalin at 4 degrees C for 48 hours. Free-floating 50-micron sections from several levels were stained for NADPH-d or AchE activities. Selected sections were double stained for NADPH-d and AchE. NADPH-d activity was present in a network of pleomorphic neurons that extended through all levels of the substantia innominata and into the striatum and amygdala. NADPH-d neurons were particularly numerous at the level of the anterior commisure and were closely associated with the cholinergic neurons of the nucleus basalis. They were not seen in the ventral pallidum, or the vertical limb of the diagonal band of Broca or in the islands of Calleja. The cell bodies of NADPH-d neurons were quite varied in shape, ranging from ovoid to fusiform, and about half the cells were bipolar. Where neuronal density was high, their dendrites formed an interlacing pattern. NADPH-d-positive fibres were seen coursing through the external capsule, hypothalamus, and amygdala. This novel set of neurons in the substantia innominata may be part of a more extensive network that interacts with the magnocellular basal forebrain system at the level of the nucleus basalis. Whether other neurotransmitters are present within these neurons and whether NADPH-d neurons are involved in Alzheimer's disease remain to be elucidated.
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PMID:Subset of neurons characterized by the presence of NADPH-diaphorase in human substantia innominata. 361 5


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