EC:1.6.5.2 - FACTA Search

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Query: EC:1.6.5.2 (NQO1)
6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nicotinamide-adenine dinucleotide phosphate-diaphorase (NADPH-d) positive cells were demonstrated in the medulla of the rat and chick thymus at light microscopic level. The NADPH-d positive cells were present as clusters and were predominantly localized near the corticomedullary boundary. These clusters were closely associated with the thymic cysts. Some cells were seen in close proximity to blood vessels. The presence of nitric oxide (NO) as indicated by the positive NADPH-d reaction in the cells forming the wall of the thymic cyst suggests a modulatory influence of NO over the activities of these cells. Other possible functions of NO are also discussed.
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PMID:NADPH-diaphorase positive cells in the chick and rat thymus. 751 99

Nitric oxide (NO) has become recognized as a multifunctional mediator, with roles in vascular physiology, neurotransmission and non-specific immune defense. The histochemical marker associated with the neural and endothelial form of NO synthase (NOS), reduced nicotinamide adenine dinucleotide diaphorase (NADPHd), has enabled the indirect localization of potential sites of NO production. Innervation of the thymus and its immunological functions made this tissue a candidate for utilization of various NO systems. In the present study on adult rat thymus, multiple cellular sites expressing NADPHd activity, thereby implicated as sites of NOS activity, have been identified using morphological criteria alone: blood vessel endothelium, dendritic cells, deep cortical or medullary stromal cells, intrinsic neuron-like profiles, granulocytes (possibly neutrophils) and fat cells. In addition, the availability to the thymic microenvironment of another form of NOS in macrophages, which is not stained by the diaphorase technique, was supported by the observation of these cells at corticomedullary and cortical locations. These results indicate that a wide variety of possible immunomodulatory roles can be expected for NO in the thymus including the induction of tolerance, major histocompatibility complex (MHC) restriction, lymphocyte trafficking and regulation of thymic endocrine output.
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PMID:Multiple nitric oxide synthase systems in adult rat thymus revealed using NADPH diaphorase histochemistry. 753 Jun 86

Nicotinamide-adenine-dinucleotide phosphate-diaphorase positive cells in the chick thymus were studied at the electron-microscopic level. The formazan, a marker for the enzyme nitric oxide synthase, labelled cystic, undifferentiated, endocrine-like and myoid cells in the medulla. Some lymphoid and reticulo-epithelial cells were also lightly labelled. The reaction product was predominantly bound to the membranes of the endoplasmic reticulum in all the cells labelled and also to the nuclear envelope and outer membrane of mitochondria. The Golgi apparatus and the plasma membrane were free of the reaction product.
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PMID:Ultrastructural localisation of NADPH-diaphorase in the chick thymic medulla. 753 55

The one- and two-electron enzymic reduction of the bioreductive alkylating agents 2-methylmethoxynaphthoquinone (quinone I) and 2-chloromethylnaphthoquinone (quinone II) was studied with purified NADPH-cytochrome P-450 reductase and DT-diaphorase respectively, and characterized in terms of kinetic constants, oxyradical production, thiol oxidation and DNA-strand-break formation. The catalytic-centre activity values indicated that DT-diaphorase catalysed the reduction of quinone I far more efficiently than NADPH-cytochrome P-450 reductase, although the Km values of the two enzymes for this quinone were similar (1.2-3.0 microM). The one-electron-transfer flavoenzyme also catalysed the reduction of quinone II, but the behaviour of DT-diaphorase towards this quinone did not permit calculation of kinetic constants. A salient feature of the redox transitions caused by the one- and two-electron catalysis of these quinones was the different contributions of disproportionation and autoxidation reactions respectively. In the former case, about 26% of NADPH consumed was accounted for in terms of autoxidation (as H2O2 formation), whereas in the latter, the autoxidation component accounted for most (98%) of the NADPH consumed. This difference was abrogated by superoxide dismutase, which enhanced autoxidation during NADPH-cytochrome P-450 catalysis to a maximal value. E.s.r. analysis indicated the formation of superoxide radicals, the signal of which was suppressed by superoxide dismutase and unaffected by catalase. The one- and two-electron reduction of these quinones in the presence of GSH was accompanied by formation of thiyl radicals. Although superoxide dismutase suppressed the thiol radical e.s.r. signal in both instances, the enzyme enhanced GSSG accumulation during NADPH-cytochrome P-450 catalysis of quinone I, whereas it inhibited GSSG formation during reduction of the quinone by DT-diaphorase. One- and two-electron reduction of quinone I led to calf thymus DNA-strand-break formation, a process that (a) was substantially decreased in experiments performed with dialysed DNA and in the presence of desferal and (b) was partially sensitive to superoxide dismutase and/or catalase. These findings are rationalized in terms of the occurrence of metal ions ligated to DNA, protecting against the toxic effects of superoxide radicals generated during enzymic reduction of quinones.
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PMID:One- and two-electron reduction of 2-methyl-1,4-naphthoquinone bioreductive alkylating agents: kinetic studies, free-radical production, thiol oxidation and DNA-strand-break formation. 803 73

7-N-((2-([2-(gamma-L-Glutamylamino)ethyl]dithio)ethyl))mitomycin C (KW-2149) is an analogue of mitomycin C (MMC) and has prominent activities against various tumors. We studied the antitumor effects of KW-2149 in MMC-resistant variants of human colon carcinoma HT-29 (HT-29/MMC) and mouse hepatoma Hepa-I (C4, B13NBii1) cells, which are deficient in DT-diaphorase and cytochrome P450 reductase, respectively. These enzymes mediate the reductive activation of MMC in the cells. Although HT-29/MMC and C4, B13NBii1 cells showed significant resistance to MMC, they showed sensitivity tl KW-2149 comparable to their parental tumors, indicating that DT-diaphorase and cytochrome P450 reductase could not be involved in the activation of KW-2149. In studying the activation mechanism of KW-2149, we found that glutathione (GSH) and cysteine significantly enhanced the cytotoxicity of KW-2149 in HT-29 cells. The DNA adduct of KW-2149 was increased when HT-29 cells or the isolated nuclei of the cells were incubated with KW-2149 in the presence of physiological concentrations of GSH and cysteine. KW-2149 alkylated calf thymus DNA in the presence of GSH and cysteine in vitro. These results indicate that activation of KW-2149 by thiol molecules, unlike MMC, could be an important activation mechanism of KW-2149 to form DNA adduct and to exert its cytotoxicity. This is the reason why KW-2149 is effective against MMC-resistant tumors with deficiencies in the MMC activation enzymes.
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PMID:Nonenzymatic reductive activation of 7-N-((2-([2-(gamma-L-glutamylamino)ethyl]dithio)ethyl))mitomycin C by thiol molecules: a novel mitomycin C derivative effective on mitomycin C-resistant tumor cells. 816 87

In order to provide a morphological basis for understanding the role of nitric oxide (NO) in the thymus, present study was designed to clarify the localization and distribution of nicotinamide adenine dinucleotide phosphate-diaphorase (NADP-d) activity, a marker of NO synthase in rabbit and rat thymuses. The NADPH-d histochemistry revealed a different distribution of diaphorase positive reactivity in both animal species, visible as dark blue structures. The rabbit thymus displayed lightly stained cortex, whereas medulla was seen as a rounded complex of intensively stained cells, without sharp demarcation between them. However, unlike the rat thymus, the NADPH-d positive cells appeared to be arranged in an irregular line of dense staining at the corticomedullary junction. In the rat thymus, the NADPH-d positive nerve fibres were not evident, whereas neuronal-like plexuses were seen in the perivascular topography of the rabbit thymus. These results suggest that NO may participate in the regulation of thymic function. (Fig. 6, Ref. 30.)
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PMID:[Localization of NADPH-d positive structures in the thymus of rabbits and rats]. 926 7

Nitrergic and peptidergic innervation of the chick thymus was studied using histochemical and immunohistochemical methods. Nicotinamide adenine dinucleotide hydrogen phosphate-diaphorase (NADPH-d) histochemistry and anti-nitric oxide synthase (NOS) antibodies stained both nerve fibres and 'neuron-like' cells located in the septal connective tissue. NADPH-d and NOS were partially colocalised. Staining of NADPH-d positive neuron-like cells with the neuronal marker, neuron specific enolase, confirmed the neuronal nature of these cells. Antibodies against vasoactive intestinal peptide (VIP), neuropeptide tyrosine (NPY), substance P (SP) and calcitonin gene related peptide (CGRP) were used to map the peptidergic innervation of the chick thymus. The distribution of nerve fibres staining for the various neuroactive chemicals in specific thymic compartments was non-uniform. Out of all the peptides, VIP-containing nerves appeared to be the most abundant. In addition, double-labeling of the thymic sections revealed that VIP and NADPH-d were colocalised in the neuronal structures. Immunostaining of the chick embryos demonstrated that VIP, NPY, SP and CGRP were first expressed in the chick thymus during late ontogeny. The significance of these novel findings was discussed.
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PMID:Nitrergic, peptidergic and substance P innervation of the chick thymus. 947 19

The presented study was designed to clarify the localization and distribution of nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) activity, a marker of NO synthase, in pheasant and mouse thymuses. To provide a morphological basis for understanding the role of nitric oxide (NO) in the thymus. The NADPH-d histochemistry revealed dark blue stained cell structures. In the pheasant thymus, NADPH-d positive cells were present as clusters which were distributed in the medulla and the corticomedullar area. NADPH-d positive cells were observed mostly in the medulla of the mouse thymus. They were round, oval or irregular in shape, with various intensity of staining. There were found NADPH-d positive nerve fibres in the perivascular location in both groups of experimental animals. (Fig. 4, Ref. 14.)
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PMID:[Localization of NADPH-d positive cells in the thymus of pheasants and mice]. 958 87

Premarin (Wyeth-Ayerst) is the estrogen replacement treatment of choice and continues to be one of the most widely dispensed prescriptions in North America. In addition to endogenous estrogens, Premarin contains unsaturated equine estrogens, including equilenin [1,3,5(10),6,8-estrapentaen-3-ol-17-one]. In previous work, we showed that the equilenin metabolite 4-hydroxyequilenin (4-OHEN) can be autoxidized to 4-OHEN-o-quinone which readily entered into a redox couple with the semiquinone radical catalyzed by NAD(P)H, P450 reductase, or quinone reductase, resulting in generation of reactive oxygen species [Shen, L., Pisha, E., Huang, Z., Pezzuto, J. M., Krol, E., Alam, Z., van Breemen, R. B., and Bolton, J. L. (1997) Carcinogenesis 18, 1093-1101]. As oxidative damage to DNA by reactive oxygen species generated by redox active compounds has been proposed to lead to tumor formation, we investigated whether 4-OHEN could cause DNA damage. We treated lambda phage DNA with 4-OHEN and found that extensive single-strand breaks could be obtained with increasing concentrations of 4-OHEN as well as increasing incubation times. If scavengers of reactive oxygen species are included in the incubations, DNA could be completely protected from 4-OHEN-mediated damage. In contrast, NADH and CuCl2 enhanced the ability of 4-OHEN to cause DNA single-strand breaks presumably due to redox cycling between 4-OHEN and the semiquinone radical generating hydrogen peroxide and ultimately copper peroxide complexes. We also confirmed that 4-OHEN could oxidize DNA bases since hydrolysis of 4-OHEN-treated calf thymus DNA and HPLC separation with electrospray MS detection revealed oxidized deoxynucleosides, including 8-oxodeoxyguanosine and 8-oxodeoxyadenosine. Our data suggest that DNA single-strand breaks and oxidation of DNA bases by 4-OHEN could contribute to the carcinogenic mechanism(s) of equine estrogens.
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PMID:The equine estrogen metabolite 4-hydroxyequilenin causes DNA single-strand breaks and oxidation of DNA bases in vitro. 976 Feb 86

Predisposition to autoimmune disorder in Lewis rats has been associated with abnormal hypothalamic regulation of circulating steroids, leading to inadequate suppression of T helper 1 (Th1) cell-mediated inflammatory reactions. In addition, autoimmune syndromes can be triggered within formerly resistant animals, following damage to the negative selection process of the thymus. A contribution to the autoimmune-susceptible phenotype may therefore derive from the status of thymic tolerance. One mechanism of intrathymic negative selection may involve nitric oxide. Because inducible nitric oxide synthase (iNOS) is known to be inhibitable by steroids, its expression might be different within strains having neuroendocrine disturbance. We report on a study to compare intrathymic iNOS expression in autoimmune-prone Lewis rats with other resistant strains. Interdigitating cells (IDC), darkly stained for diaphorase, were confirmed as immunoreactive for iNOS. They were located towards the medullary side of an accumulation of unstained, but autofluorescent cells (presumed to be macrophages) that circumscribes the corticomedullary zone. The role of iNOS+ IDC in the apoptotic deletion of T cells has been suggested by other studies. Despite the blunted steroidal condition reported for Lewis, nitrergic cell abundance was shown, by quantitative analysis of histochemical stain, to be on average approximately twofold lower compared with resistant strains (Fischer and Sprague-Dawley). This trend was evident in males and females, and confirmed by independent observers. We hypothesize that an intrathymic, iNOS-dependent mechanism may be important for the suppression of potentially autoreactive T-cell clones.
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PMID:NADPH diaphorase-positive dendritic profiles in rat thymus are discrete from autofluorescent cells, immunoreactive for inducible nitric oxide synthase, and show strain-specific abundance differences. 976 70

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