Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The distribution of nicotinamide adenine dinucleotide phosphate-diaphorase (or -dehydrogenase, NADPHDH, a marker for nitric oxide synthase, NOS) positive neurons was demonstrated histochemically in the central nervous system of the swordtail fish Xiphophorus helleri, a highly derived telost of the atherinomorph outgroup. All nuclei of the swordtail fish, comprising almost all nuclei that have been described so far regarding the brains of telosts in general, were investigated. The results obtained clearly indicate, that NADPHDH positive neurons in the swordtail fish mostly are restricted to evolutionary primitive brain areas such as to most dorsomedial, dorsocentral and ventral portions of the telencephalon, to the preoptic area and to some thalamic, hypothalamic and pretectal nuclei of the diencephalon including the pituitary and the pineal organ, to the nuclei of the mesencephalic and myelencephalic cranial nerves, to the myelencephalic reticular formation and to the Mauthner cells. Some positive neurons were also observed within the mesencephalon, including the cerebellar body and its valve. Among non-neuronal cells, especially ependymocytes were strongly stained. It is the particular goal of the present study to provide a complete account on NADPHDH in the brain of a fish species, since, firstly, the NADPHDH/NOS system becomes increasingly important with regard to the understanding of the molecular basis of memory formation, and, secondly, fishes generally are more and more intensively studied concerning neurobiological approaches.
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PMID:An atlas of the distribution of NADPH-diaphorase in the brain of the highly derived swordtail fish Xiphophorus helleri (Atherinoformes:Teleostei). 887 64

Recent work has implicated nitric oxide (NO) in several aspects of male genital physiology including erectile function and androgen secretion, as well as in vitro effects on sperm motility and capacitation. The objectives of this study were to characterize the distribution of endothelial nitric oxide synthase (eNOS) in "normal" human testis, epididymis, and vas deferens and in testis pathology. Nitric oxide synthase protein was localized immunohistochemically using an eNOS monoclonal antibody. Endothelial NOS protein co-localized to areas that showed positive NADPH diaphorase activity. Within the testis, eNOS protein was localized to the cytoplasm of Leydig cells and Sertoli cells at all stages of spermatogenesis. Within the epididymis and vas deferens, eNOS was localized to the epithelium. Endothelial NOS was also localized to endothelial cells in all tissues; it was not detectable in normal germ cells. Endothelial NOS and diaphorase activity were, however, detected in degenerating or apoptotic intraepithelial germ cells. In addition, prematurely shed spermatocytes and spermatids had intense eNOS expression. Previous studies have suggested a role for NOS in the contractile, hemodynamic, and hormonal aspects of testicular function as well as in epididymal secretion. The studies reported herein suggest a role for eNOS in spermatogenesis and germ cell degeneration.
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PMID:Immunohistochemical localization of endothelial nitric oxide synthase in human testis, epididymis, and vas deferens suggests a possible role for nitric oxide in spermatogenesis, sperm maturation, and programmed cell death. 890 2

There is increasing evidence that carbon monoxide (CO), like nitric oxide (NO), may be a neuronal messenger molecule. This study investigated the expression of heme oxygenase-2 (HO-2), the enzyme responsible for the synthesis of CO, by intracardiac neurones. Many, if not all newborn guinea-pig intracardiac neurones in culture were HO-2-immunoreactive. Furthermore, double labelling showed that a relatively small subpopulation of these neurones also expressed NO synthase/nicotinamide dinucleotide phosphate (NADPH)-diaphorase (NOS/NADPH-d) activity. These findings suggest that intracardiac neurones can synthesize CO and that CO may be fundamental to their function. Comparison of the proportions of intracardiac neurones that contain HO-2 with those that express NOS/NADPH-d activity also indicates that CO may be more important than NO in the intrinsic neuronal control of the heart.
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PMID:Heme oxygenase-2 and nitric oxide synthase in guinea-pig intracardiac neurones. 914 Oct 89

Recently, it has been shown that in human striated muscle the signalling enzyme, brain-type nitric oxide synthase I (NOS I), is associated with the sarcolemma and complexes with dystrophin and/or members of the dystrophin complex. In order to find out whether there exists a regular association between NOS I and the complex, muscle biopsies from patients with various muscle disorders were analysed by enzyme histochemistry and immunohistochemistry. In patients suffering from Duchenne muscular dystrophy, and to a lesser extent in those with Becker-type dystrophy, NOS I and dystrophin complex components were absent or drastically reduced in the sarcolemma region. In other dystrophies, as well as in metabolic and inflammatory myopathies, NOS I and dystrophin complex constituents were expressed normally, while in the case of neurogenic diseases leading to denervation atrophy and especially congenital idiopathic clubfoot, the immunohistochemical patterns of the distribution of the dystrophin complex constituents were normal, but NOS I activity and protein were deficient or dramatically diminished. The results can be interpreted as indicating that, in general, NOS I targeting to the sarcolemma is dependent on particular members of the dystrophin complex, such as alpha-1 syntrophin, yet the expression and/or positioning of NOS I may be under the control of further factors, probably of neurogenic origin. NOS I-associated diaphorase may thus be a useful complementary tool in the diagnosis of muscle disorders.
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PMID:Absence of nitric oxide synthase I despite the presence of the dystrophin complex in human striated muscle. 914 66

The small subpopulation of striatal neurons containing nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d, recently identified as nitric oxide synthase, NOS) is selectively spared in Huntington's disease. Previous search for pathogenic mechanisms capable of destroying striatal neurons but sparing NADPH-d(+) cells has identified only NMDA receptor-mediated excitotoxicity. In view of suggestions that neuronal death in Huntington's disease may occur by apoptosis, we examined the vulnerability of NADPH-d(+) neurons to apoptosis. Murine striatal or cortical cultures exposed to serum deprivation developed extensive neuronal apoptosis, but NADPH-d(+) neurons were relatively spared. This sparing was seen when cultures were exposed to several other apoptosis-inducing insults. It was not seen after toxic exposure to H2O2, and it was not blocked by NOS inhibition. The selective resistance of NADPH-d(+) neurons to several forms of apoptosis provides key support for the possibility that apoptosis may contribute to the pathogenesis of Huntington's disease.
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PMID:NADPH diaphorase-containing striatal or cortical neurons are resistant to apoptosis. 917 14

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

The distribution of nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd) reactivity and neuronal nitric oxide synthase immunoreactivity (nNOS-IR) was investigated in the rat retina during photoreceptor regeneration. Photoreceptor damage and the disappearance of a NADPHd reactive/nNOS-IR band corresponding to inner photoreceptor segments were observed after continuous exposure to light irradiation. Both events were reversible after 20 days of total darkness. Also a progressive decrease in the number and in the staining intensity of NADPHd reactivity in amacrine cells were found along the first 3-6 days of darkness stabilizing thereafter in both illuminated and control groups. However, staining intensity in the former group remained more elevated than in the latter one. NOS activity in the retina varies depending on functional and pathological states.
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PMID:Changes in NADPH diaphorase reactivity and neuronal nitric oxide synthase in the rat retina following constant illumination. 928 Jan 64

During our studies on the multiple possible functions of nitric oxide (NO) in chick retinal development and physiology, we have demonstrated the presence and the activity of NO synthase (NOS-I and III) in certain neuronal populations (photoreceptors, amacrine cells in the inner nuclear and ganglion cells) and also in synaptic-rich regions in the developing chick retina. Both enzymes, detected by nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase, immunohistochemistry and Western blotting, appeared between embryonic days 6 and 12, and followed a spatial and temporal pattern of expression which correlated with the differentiation of the neuronal layers. Evaluation of the conversion of [3H]-labeled arginine to [3H]-citrulline, confirmed the presence of a calcium-dependent NOS activity in the cytosolic and particulate retinal extracts during the development. This pattern of NOS expression suggests that the regulated release of NO during key phases of development might be one mechanism involved in the regulation of retinal differentiation.
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PMID:Developmental expression of nitric oxide synthase isoform I and III in chick retina. 937 86

The distribution of immunoreactivity to neuronal nitric oxide synthase (nNOS) and vasopressin (AVP) was studied in the circumventricular organs of the female rat. The occurrence of NOS immunoreactivity showed correspondence to nicotinamide dinucleotide phosphate diaphorase reactivity, a previously used but less specific marker for neuronal NOS. nNOS immunolabeling was detected in the two most rostrally located circumventricular organs - the organum vasculosum of the lamina terminalis and the subfornical organ. In the latter, AVP immunoreactivity was observed in some cell bodies, which also were nNOS-immunoreactive. In the median eminence and the neurohypophysis there were large amounts of nNOS- and AVP-immunoreactive nerve fibers, which often displayed similarities in distribution and morphology. Within the pineal gland, only very few nNOS-immunoreactive varicose terminals were observed, which ran along blood vessels. nNOS immunoreactivity was also seen in the epithelium of the choroid plexus, whereas no nNOS immunoreactivity could be found in the subcommissural organ or in the area postrema. The present demonstration of nNOS and AVP immunoreactivity in the subfornical organ, median eminence, and neurohypophysis, and the occurrence of nNOS immunoreactivity also in the choroid plexus and organum vasculosum of the lamina terminalis, provides a morphological background for a functional role for nitric oxide in water homeostatic mechanisms, both as executed through the hypothalamohypophyseal system and via the production of cerebrospinal fluid.
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PMID:Nitric oxide synthase and vasopressin in rat circumventricular organs. An immunohistochemical study. 938 4

As intrafusal nuclear bag and chain fibers of muscle spindles take part in both sensory and motor functions, these stretch receptors may represent a useful model to answer the question whether nitric oxide (NO) signalling is involved in sensory and motor functions or motor events only, as has already been shown for ordinary extrafusal fibers. To answer these questions, we have applied immunohistochemical and enzyme histochemical methods to serial transverse sections of the rat gastrosoleus muscle for determining the presence or absence of NOS I, NOS-associated diaphorase (NOSaD), AChE and proteins related to the dystrophin complex. NOS I, NOSaD, and AChE were practically absent from the equatorial (central) region of intrafusal fibers, i.e. the site of termination of the primary and secondary afferents. These regions showed weak staining for dystrophin, beta-dystroglycan as well as alpha- and gamma-sarcoglycan. By contrast, all of these molecules were found enriched in the polar (peripheral) regions of the intrafusal fiber sarcolemma. NOS I, NOSaD, dystrophin, beta-dystroglycan and the two sarcoglycans showed a general presence in the sarcolemma, whereas AChE was limited to the endplate region and other circumscribed areas. From these observations we would like to conclude that NO does not appear to be significantly or even not involved in signal transfer to the sensory nerve endings in the intrafusal fibers.
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PMID:NO is not substantially involved in afferent signalling in rat muscle spindles. 942 3


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