EC:1.6.99.1 - FACTA Search

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

Microbiosensors based on carbon and and platinum fibers are described. Carbon fibers were used to construct microelectrodes of 7 microm diameter. Electrochemical operations for pre-electrolysis and measuring were examined for the highly sensitive determination of hydrogen peroxide. A triangular potential (-2 to +2V vs Ag/AgCl) was applied before measuring each pair of double pulses (first pulse: 750 mV; second pulse: 1100 mV). The determination limit was 0.1 microM of hydrogen peroxide. The reproducible determination of hydrogen peroxide is possible even in samples containing albumin protein. The separation of hydrogen peroxide from ascorbic acid is also possible because the oxidation potential of ascorbic acid is different from that of hydrogen peroxide. An acetylcholine microsensor was fabricated by immobilizing acetylcholine esterase and choline oxidase on the carbon fiber by entrapment with poly(vinyl alcohol)-quarternized stilbazole (PVA-SbQ). This sensor gave a linear calibration plot for the range 0.1-1.0 mM with a linear correlation coefficient of 0.9842. Glucose oxidase (GOD) and glucose dehydrogenase (GDH) immobilized cylindrical platinum microelectrodes were fabricated, and their characteristics were evaluated, respectively, by using 1,4-benzoquinone (BQ) and ferricyanide as electron mediators. Each enzyme was immobilized by using PVA-SbQ on a cylindrical microelectrode of 2 microm diameter. A linear range in the calibration curve of the GOD-based glucose microsensor was observed to be wider than that obtained using a disk electrode of 1 mm diameter. The mediated response of the 2 microm glucose sensor was compared with the response resulting from hydrogen peroxide detection. This result showed that a higher response and a wider linear range were observed with highly concentrated mediator. A much higher response of the GDH immobilized 2 microm microelectrode was obtained when not only ferricyanide but also diaphorase was employed to reoxidize the NADH produced by the enzyme reaction of GDH. The GHD-based glucose microsensor was found to be unaffected by the concentration of dissolved oxygen.
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PMID:Microbiosensors for acetylcholine and glucose. 835 77

Islet-like cell clusters (ICCs) were prepared from the fetal porcine pancreas by a culture technique. The ICCs (approximately 500) were implanted under the left renal capsule of nude (nu/nu) C57BL/6J mice. Six weeks, months, 12 months, or 16-24 months later, the animals were anesthetized and the blood flows to the xenogeneic islet graft and the adjacent kidney parenchyma were measured with laser-Doppler flowmetry. After the blood flow measurements, the graft-bearing kidneys were prepared for enzyme and immunohistochemistry. The blood perfusion of the graft was higher than that of the kidney at all times investigated. Intraperitoneal administration of glucose caused only slight and parallel changes in renal and graft blood flows 6 weeks, 6 months, or 12 months after transplantation. However, in all but 1 animal (n=16) transplanted >16 months before the blood flow measurements, glucose caused a marked increase in graft blood flow but did not affect renal blood flow. Injection of 2-deoxy-glucose also increased graft blood perfusion in animals transplanted > 16 months earlier (n=5). Treatment with NG-monomethyl-L-arginine (n=6), an inhibitor of nitric oxide synthase, prevented this glucose-induced flow increase. Nicotinamide adenine dinucleotide phosphate diaphorase histochemistry revealed nitric oxide synthase only in the endothelium and media of graft arterioles in animals in the oldest age group. Thus, with the passage of time after implantation, the grafted xenogeneic ICCs seem to achieve an autonomous blood flow regulation, different from that of the implantation organ. The reactivity to an increment in blood glucose concentration in the graft is similar to that seen in native islets in the pancreas but is not present until >16 months after implantation. The mechanisms for the glucose-induced blood flow increase are obscure but probably depend on local release of nitric oxide within graft arterioles.
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PMID:Blood flow regulation in the transplanted fetal endocrine pancreas. Acquisition of a nitric oxide-dependent glucose-induced increase in blood flow. 860 82

The coexpression of normally periportal and perivenous markers has been described in heterotopically transplanted hepatocytes. To determine whether such a coexpression might also occur in hepatocytes retaining their original intrahepatic location, we compared in bile-duct-ligated livers and intrasplenically transplanted hepatocytes, the expression and distribution of the predominantly periportal glucose-phosphatase, succinate dehydrogenase, and lactate dehydrogenase, the predominantly perivenous glutamate dehydrogenase, NADPH-dehydrogenase, and beta-hydroxybutyrate dehydrogenase, and the strictly perivenous glutamine synthetase. The coexpression of high levels of the two periportal markers glucose-6-phosphatase and lactate dehydrogenase and of the perivenous marker NADPH dehydrogenase was observed in two situations: in clusters of hepatocytes isolated within the ductular proliferation in bile-duct-ligated livers and the majority of intrasplenically transplanted hepatocytes. The expression of glutamine synthetase was different according to the site. The protein was observed in certain intrasplenically transplanted hepatocytes bordering the splenic vessels but was never detected in hepatocyte clusters found in bile-duct-ligated livers. Our study therefore suggests that the coexpression of periportal and perivenous markers in the same hepatocytes is likely to be a non-specific consequence of the loss of the normal connections of hepatocytes with the normal liver microcirculation.
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PMID:Coexpression of periportal and perivenous enzymes in rat hepatocytes after experimental bile duct ligation: comparison with intrasplenically transplanted hepatocytes. 907 88

The principal goal of the present study was to test the hypothesis that cytokines modulate glucose transport in skeletal muscle by increasing nitric oxide production. Cultured L6 skeletal muscle cells were incubated in the presence of tumour necrosis factor-alpha, interferon-gamma or lipopolysaccharide (LPS) alone or in combination for 24 h. Neither cytokines nor LPS alone induced NO production, as measured by nitrite concentrations in the medium. However, when used in combination, the two cytokines significantly stimulated NO production, and this effect was synergistically enhanced by the presence of LPS. Reverse transcriptase-PCR (RT-PCR) analysis revealed that NO release was associated with the induction of inducible (macrophage-type) NO synthase (iNOS). The increase in iNOS expression was confirmed at the protein level by Western-blot analysis and NADPH/diaphorase histochemical staining. Cytokines and LPS markedly increased basal glucose transport in L6 myocytes. Insulin also stimulated basal glucose transport, but significantly less in cells chronically exposed to cytokines/LPS. The sensitivity of L6 muscle cells to insulin-stimulated glucose transport was also significantly decreased by cytokines/LPS treatment. The NOS inhibitor NG-nitro-l-arginine methyl ester (l-NAME) inhibited nitrite production in cytokine/LPS-treated cells, and this prevented the increase in basal glucose transport and restored muscle cell responsiveness to insulin. Cytokines/LPS exposure significantly increased GLUT1 transporter protein levels but decreased GLUT4 expression in L6 cells. l-NAME treatment prevented the increase in GLUT1 protein content but failed to restore GLUT4 transporter levels. These results demonstrate that cytokines and LPS affect glucose transport and insulin action by inducing iNOS expression and NO production in skeletal muscle cells. The data further indicate that cytokines and LPS increase the expression of the GLUT1 transporter protein by an NO-dependent mechanism.
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PMID:Cytokines modulate glucose transport in skeletal muscle by inducing the expression of inducible nitric oxide synthase. 923 Jan 32

Diabetes mellitus leads to micro- and macroangiopathy with endothelial dysfunction. To investigate the direct influence of high glucose on endothelial cell structure and possible pharmacologic effects, seven different experimental protocols were carried out on endothelial cells in culture. There were four control groups with either 5 mM D-glucose alone, 5 mM D-glucose plus 15 mM L-glucose (for osmotic control), 5 mM D-glucose plus 500 nM celiprolol, or 5 mM D-glucose plus 57 nM nitrendipine. Three experimental groups had either 20 mM D-glucose alone, 20 mM D-glucose plus 500 nM celiprolol or 20 mM D-glucose plus 57 nM nitrendipine. Treatment of all groups started at the third passage of the cells and lasted until confluence was reached (5-8 days). The endothelial cells were fixed in paraformaldehyde and stained either with hematoxylin-eosin solution, with nitro blue tetrazolium for nicotinamide adenine dinucleotide phosphate (NADPH)- diaphorase staining, or actin staining with phalloidin was carried out. For quantitative analysis of the histologic specimens, the slides were viewed via a microscope and a videocamera. The pictures were converted digitally and could be analyzed with the videopicture-analyzing system, JAVA. In the four control groups, neither treatment with 15 mM L-glucose nor administration of celiprolol or nitrendipine had an effect on cell, cytoplasm, and nuclear area. The number of giant or polynuclear cells and the histochemical NADPH-diaphorase activity were not altered. Incubation of endothelial cells with 20 mM D-glucose for 5-8 days resulted in a significant increase in total and cytoplasmic area, as well as in the number of giant and polynuclear cells, whereas the nuclear area and the NADPH-diaphorase activity were significantly reduced. Concomitant treatment with celiprolol was able to reverse these alterations in endothelial structure significantly but had only a weak effect on the NADPH-diaphorase. Nitrendipine had no beneficial effect on the high D-glucose-induced cell alterations. The actin staining of the control cells showed the typical actin pattern with most of the actin filaments arranged at the periphery of the cells. Administration of 20 mM D-glucose resulted in a disturbance of the actin pattern, with most of the actin filaments now arranged in the middle of the cells. However, neither celiprolol nor nitrendipine exhibited a significant influence on this altered actin structure. High D-glucose treatment over several days thus leads to severe changes in endothelial cell structure, and celiprolol may have a beneficial effect on these hyperglycemia-induced cell alterations.
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PMID:High D-glucose induces alterations of endothelial cell structure in a cell-culture model. 926 45

Previous studies have shown that nitric oxide synthase (NOS), the enzyme that catalyzes the formation of nitric oxide (NO), is expressed in skeletal muscle. The aim of the present study was to test the hypothesis that NO can modulate glucose metabolism in slow- and fast-twitch skeletal muscles. Calcium-dependent NOS was detected in skeletal muscle, and the enzyme activity was greater in fast-type extensor digitorum longus (EDL) muscles than in slow-type soleus muscles. Both the neuronal-type (nNOS) and endothelial-type (eNOS) enzymes are expressed in resting skeletal muscles. However, nNOS protein was only detected in EDL muscles, whereas eNOS protein contents were comparable in soleus and EDL muscles. NOS expression in muscle cryosections (diaphorase histochemistry) was located in vascular endothelium and in muscle fibers, and the staining was greater in type IIb than in type I and IIa fibers. The macrophage-type inducible NOS (iNOS) was not detected in resting muscle, but endotoxin treatment induced its expression, concomitant with elevated NO production. iNOS induction was associated with impaired insulin-stimulated glucose uptake in isolated rat muscles. In vitro, NOS blockade with specific inhibitors did not affect basal or insulin-stimulated glucose transport in EDL or soleus muscles. In contrast, the NO donors GEA 5024 and sodium nitroprusside induced dose-dependent inhibition (up to 50%) of maximal insulin-stimulated glucose transport in both muscles with minor effects on basal uptake values. GEA 5024 also blunted insulin-stimulated glucose transport and amino acid uptake in cultured L6 muscle cells without affecting insulin binding to its receptor. On the other hand, the permeable cGMP analogue dibutyryl cGMP did not affect muscle glucose transport. These results strongly suggest that NO modulates insulin action in both slow- and fast-type skeletal muscles. This novel autocrine action of NO in muscle appears to be mediated by cGMP-independent pathways.
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PMID:Expression of nitric oxide synthase in skeletal muscle: a novel role for nitric oxide as a modulator of insulin action. 935 14

Neuronal nitric oxide synthase, e.g. NADPH diaphorase (NADPH-d), catalyzes formation of the free radical, nitric oxide (NO), and occurs within brain structures that have functional significance for energy fuel homeostasis. The following studies examined whether populations of NADPH-d-positive neurons in the hypothalamus and nearby preoptic area express immunoreactivity for the nuclear transcription factor, Fos, in response to glucose substrate imbalance. Eight days after bilateral ovariectomy (OVX) and subcutaneous implantation of silastic capsules containing 30 microgram estradiol benzoate/ml, female rats were injected i.p. with the glucose antimetabolite, 2-deoxy-D-glucose (2DG; 400 mg/kg), or the vehicle, saline. The animals were sacrificed by transcardial perfusion 2 h after these treatments. Sections at 150-micrometer intervals throughout preoptic area and anterior and tuberal regions of the hypothalamus were processed for dual cytoplasmic NADPH-d enzyme activity and nuclear Fos-immunoreactivity (-ir). The glucose antimetabolite elicited expression of nuclear Fos-ir by NADPH-d-positive neurons in several neural structures, including the medial preoptic area, median preoptic nucleus, anterior commissural, periventricular magnocellular supraoptic nucleus, paraventricular nucleus, and medial part of the bed nucleus of the stria terminalis. In contrast, the extensive populations of NADPH-d-positive neurons in the ventromedial hypothalamic nucleus and lateral hypothalamic area showed very little immunolabeling for Fos in response to glucoprivation. This demonstration of nuclear immunoreactivity for Fos suggests that cellular glucopenia elicits the transcriptional activation, via AP-1 regulatory sites, of multiple populations of hypothalamic neurons characterized by the functional capacity to generate NO, and thus that this gaseous neurotransmitter may fulfill a role(s) in central neural mechanisms governing regulation of compensatory motor responses to metabolic imbalance.
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PMID:Site-specific induction of Fos immunoreactivity in preoptic and hypothalamic NADPH-positive neurons during glucoprivation. 1008 50

Neuronal nitric oxide (NO) synthase, a NADPH diaphorase (NADPH-d) enzyme, catalyzes formation of the free radical neurotransmitter, NO, and is distributed within several caudal brainstem structures. The following studies investigated whether these neuron populations express immunoreactivity for the inducible nuclear transcription factor, Fos, in response to acute glucose deprivation. Eight days after bilateral ovariectomy and subcutaneous implantation of silastic capsules containing 30 microg estradiol benzoate/ml, adult female rats were injected i.p. with the glucose antimetabolite, 2-deoxy-D-glucose (2DG; 400 mg/kg), or the vehicle, saline, and killed by transcardial perfusion 2 h later. At 150-microm intervals through the midbrain, pons, and medulla 25-microm sections were taken and processed for dual cytoplasmic NADPH-d enzyme activity and nuclear Fos immunoreactivity (Fos-ir). Although NADPH-d-positive neurons were demonstrated in several neural structures, only those in the dorsal raphe nuclei, central subnucleus of the nucleus of the solitary tract, dorsal vagal motor nucleus, lateral paragigantocellular nucleus, nucleus ambiguus, reticular parvocellular nucleus, and medullary A5 noradrenergic cells were colabeled for nuclear Fos-ir following injection of 2DG. While NADPH-d neurons in the midbrain central gray and the latero- and posterodorsal tegmental, lateral parabrachial, motor trigeminal, and gigantocellular nuclei were not immunolabeled for Fos in the 2DG-treated animals, there was a close neuroanatomical proximity between neurons capable of generating NO and others expressing Fos-ir in these sites. These data reveal that only discrete populations of NADPH-d-containing neurons in the caudal brainstem are transcriptionally activated via the Fos stimulus-transcription cascade in response to glucose substrate imbalance, and suggest that NO and/or other neurotransmitters released by these neurons may function as neurochemical mediators of glucoprivic regulatory effects within this part of the brain.
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PMID:Induction of Fos immunoreactivity by acute glucose deprivation in the rat caudal brainstem: relation to NADPH diaphorase localization. 1009 19

Neutral red (NR) functioned as an electronophore or electron channel enabling either cells or membranes purified from Actinobacillus succinogenes to drive electron transfer and proton translocation by coupling fumarate reduction to succinate production. Electrically reduced NR, unlike methyl or benzyl viologen, bound to cell membranes, was not toxic, and chemically reduced NAD. The cell membrane of A. succinogenes contained high levels of benzyl viologen-linked hydrogenase (12.2 U), fumarate reductase (13.1 U), and diaphorase (109.7 U) activities. Fumarate reductase (24.5 U) displayed the highest activity with NR as the electron carrier, whereas hydrogenase (1.1 U) and diaphorase (0.8 U) did not. Proton translocation by whole cells was dependent on either electrically reduced NR or H2 as the electron donor and on the fumarate concentration. During the growth of Actinobacillus on glucose plus electrically reduced NR in an electrochemical bioreactor system versus on glucose alone, electrically reduced NR enhanced glucose consumption, growth, and succinate production by about 20% while it decreased acetate production by about 50%. The rate of fumarate reduction to succinate by purified membranes was twofold higher with electrically reduced NR than with hydrogen as the electron donor. The addition of 2-(n-heptyl)-4-hydroxyquinoline N-oxide to whole cells or purified membranes inhibited succinate production from H2 plus fumarate but not from electrically reduced NR plus fumarate. Thus, NR appears to replace the function of menaquinone in the fumarate reductase complex, and it enables A. succinogenes to utilize electricity as a significant source of metabolic reducing power.
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PMID:Utilization of electrically reduced neutral red by Actinobacillus succinogenes: physiological function of neutral red in membrane-driven fumarate reduction and energy conservation. 1019 2

The histochemical, enzyme-histochemical and ultrastructural characteristics of the adipocyte precursors in human embryos at 6-12 weeks of gestation were studied. Some consequent stages in the histogenesis and differentiation of the fat cells were maintained according to: 1/number and size of the lipid droplets; 2/position of the nucleus. The cells become rounder, accumulate lipid inclusions, acquire eccentric nucleus, gradually gather in clusters. No typical unilocular adipocytes were seen at this stage of fetal development. The enzyme-histochemistry disclosed that the reactions for glucose-6P-dehydrogenase, NADH2 diaphorase and especially lipoprotein lipase were highly expressed. Ultrastructurally the adipocyte precursors were with a great amount of organelles/mitochondria of typical sight, well developed rough and smooth endoplasmatic reticulum/, lipid droplets and glycogen which express their high functional activity. This study could provide criteria for understanding the processes of lipidogenesis and differentiation.
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PMID:Histochemical and ultrastructural criteria for early differentiation of human subcutaneous adipocytes. 1020 88

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