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

An improved understanding of the physiology of penile erection has resulted from recent evidence that implicates nitric oxide as the principal mediator of erectile function. Previously, the neuroanatomy of erection in man was established with descriptions of the autonomic innervation of the pelvic organs and external genitalia. The basis upon which novel physiological concepts of erection relate to earlier neuroanatomical principles remains to be determined. In the present study these relationships were explored with nitric oxide synthase immunohistochemistry and reduced nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase histochemistry of select pelvic tissue specimens obtained from 4 men (3 at radical prostatectomy and 1 at autopsy). Nitric oxide synthase, the enzyme that catalyzes nitric oxide production, was identified in discrete neuronal locations, including the pelvic plexus, cavernous nerves and their terminal endings within the corporeal erectile tissue, branches of the dorsal penile nerves and nerve plexuses in the adventitia of the deep cavernous arteries. This distribution of nitric oxide synthase-containing nerves suggests that nitric oxide neuronally modulates local vascular smooth musculature of the penis. On this basis, nitric oxide is identified as a neuronal mediator of penile erection in man.
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PMID:Immunohistochemical localization of nitric oxide synthase in the autonomic innervation of the human penis. 768 26

Nitric oxide synthase is the biosynthetic enzyme for the free radical neurotransmitter nitric oxide. Using an affinity-purified antiserum, nitric oxide synthase was found to be localized to peripheral ocular nerve fibers, related cranial ganglia, and the retina of the rat. In the eye, nitric oxide synthase-like immunoreactive peripheral nerve fibers were visualized mainly in the choroid and about limbal blood vessels. The anterior uvea was quite sparsely innervated, and the cornea was negative. Many principal neurons in the pterygopalatine ganglion were immunoreactive for nitric oxide synthase while very few cells stained in the superior cervical and trigeminal ganglia. Virtually all nitric oxide synthase-like immunoreactive pterygopalatine cells were also immunostained for vasoactive intestinal polypeptide; nitric oxide synthase also partially co-localized with neuropeptide Y in some of the neurons of this ganglion. Pterygopalatine ganglionectomy significantly reduced the number of peripheral nitric oxide synthase-like immunoreactive nerve fibers in the eye. A variety of immunoreactive retinal cells were seen. Most cells in the inner nuclear layer or ganglion cell layer corresponded morphologically to amacrine cells and displaced amacrine cells. Interplexiform cells and occasional faintly stained cells in the outer portion of the inner nuclear layer also were visualized. Nicotinamide adenine dinucleotide phosphate diaphorase histochemistry generally stained cells of similar distribution but did reveal somewhat more extensive localizations in peripheral ocular tissues, the ciliary ganglion, and the retina, compared with nitric oxide synthase immunohistochemistry. Nitric oxide synthase thus localizes to peripheral ocular nerve fibers, chiefly parasympathetic in nature and derived from the pterygopalatine ganglion, and to several cell types in the retina. Nitric oxide probably acts as a choroidal vasodilator of parasympathetic origin in the eye; the neuropeptide co-localizations in the pterygopalatine ganglion suggest complex neuromodulatory interactions. The retinal localizations imply potential neurotransmitter functions for nitric oxide in this tissue.
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PMID:The localization of nitric oxide synthase in the rat eye and related cranial ganglia. 768 60

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 distribution of nitric oxide synthase (NOS), an enzyme involved in the synthesis of the presumed non-adrenergic noncholinergic inhibitory neurotransmitter nitric oxide (NO), was demonstrated in the enteric nervous system of the porcine caecum, colon and rectum. Techniques used were NOS-immunocytochemistry and nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd)-histochemistry. Throughout the entire large intestine, NOS-immunoreactive (IR) and NADPHd-positive neurons were abundant in the myenteric and outer submucous plexus. In the inner submucous plexus, only a small number of positive neurons were found in the caecum and colon, while a moderate number was observed in the rectum. The nitrergic neurons in the porcine enteric nerve plexuses were of a range of sizes and shapes, with a small proportion showing immunostaining for vasoactive intestinal polypeptide. Varicose and non-varicose NOS-IR and NADPHd-positive nerve fibres were present in the ganglia and connecting strands of all three plexuses. Nerve fibres were also numerous in the circular muscle layer, scarce in the longitudinal muscle coat and negligible in the mucosal region. The abundance of NOS/NADPHd in the intrinsic innervation of the caecum, colon and rectum of the pig implicates NO as an important neuronal messenger in these regions of the gastrointestinal tract.
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PMID:Distribution and morphological features of nitrergic neurons in the porcine large intestine. 769 26

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

Phenotypic diversity underlies the complex functioning of the nervous system. One characteristic in which neurons differ from one another is the kind of molecules that they use for intercellular signalling. The classical neurotransmitter acetylcholine, synthesized by the enzyme choline acetyltransferase, is used by five groups of neurons in the rat spinal cord. Another messenger is nitric oxide, which is synthesized by nitric oxide synthase. Neurons that express nitric oxide synthase can be stained specifically by NADPH diaphorase histochemistry. In the spinal cord, approximately five groups of neurons are labeled by the diaphorase reaction, and some of these populations overlap with cholinergic groups. To determine the proportions of neurons that co-express choline acetyltransferase and nitric oxide synthase, we performed choline acetyltransferase immunocytochemistry and diaphorase histochemistry on single sections of rat spinal cord. Some cell types were single-labeled: somatic motor neurons were choline acetyltransferase-immunoreactive only, and neurons in lamina II were diaphorase-positive only. Four cell groups included double-labeled cells. Autonomic motor neurons were either double-labeled (62%) or choline acetyltransferase-only (37%), partition cells in lamina VII were double-labeled (54%) or choline acetyltransferase-only (45%), neurons in laminae III-V of the dorsal horn were double-labeled (70%) or diaphorase-only (27%), and neurons surrounding the central canal were double-labeled (56%), choline acetyltransferase-only (23%) or diaphorase-only (21%). These data indicate that certain spinal cord populations may be heterogeneous with regard to the intercellular messenger phenotypes involving acetylcholine and nitric oxide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Choline acetyltransferase and NADPH diaphorase are co-expressed in rat spinal cord neurons. 770 May 13

We recently described a parasagittal patchy organisation of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) activity in the granular layer of the rat cerebellum. We now report the pattern of NADPH-d distribution in the primate cerebellum and its relationship to two synaptic proteins, synaptophysin and synaptosomal associated protein 25 kDa (SNAP-25), using histochemistry and immunocytochemistry. NADPH-d reactivity was localised in the molecular and granular layers (ML, GL) and a subset of infraganglionic plexuses (IGPs), but not in the Purkinje cell layer and the white matter. In ML, the histochemical reactivity was dense and relatively homogeneous in the neuropil, and moderate in the stellate cells. A patchy organisation of NADPH-d in GL was detected in both horizontal and parasagittal sections. In the IGPs staining for NADPH-d revealed modular positive zones alternating with negative ones. The positive and negative IGP zones were usually congruent with the high and low NADPH-d reactivity in GL, respectively. Both synaptic proteins were strongly expressed in the neuropil in ML and GL, and their patterns were relatively homogeneous. However, synaptophysin was present in a subpopulation of IGPs organised in modules which corresponded to those expressing NADPH-d. Our results indicate that the NADPH-d modular system is more complicated in the primate cerebellum than in the rat. In addition, we have provided suggestive evidence of a co-expression of NADPH-d and synaptophysin in selected IGP modules in primate cerebellum, which suggests that nitric oxide may be involved in the activity of the Purkinje cells by affecting the basket cell synaptic input.
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PMID:Spatial periodicity of NADPH-diaphorase and synaptophysin, but not SNAP-25, reactivity in the monkey cerebellar cortex. 771 84

Nitric oxide is a novel intercellular messenger whose role in neuronal development is not yet known. As a first step toward elucidating its developmental function, we examined the pattern of NADPH diaphorase histochemical staining, an indicator of the presence of nitric oxide synthase, in the rat spinal cord at pre and postnatal ages. Some types of neurons expressed diaphorase activity transiently during development. For example, a subset of somatic motor neurons, located in the ventrolateral corner of a few caudal segments of the cervical spinal cord, were diaphorase-positive beginning on E15, but gradually became diaphorase-negative by birth. In contrast, other spinal neurons expressed diaphorase activity continuously from development into adulthood. Preganglionic autonomic motor neurons became diaphorase-positive early in their development, as they were migrating toward their adult positions. Other spinal neurons, such as those in superficial dorsal horn, first expressed diaphorase relatively late in their development, after reaching their final location. The transient expression in some cell types, as well as the early expression in others, suggest that nitric oxide may have an important role(s) during development, which may differ from its functions in the adult nervous system.
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PMID:Transient and continuous expression of NADPH diaphorase in different neuronal populations of developing rat spinal cord. 778 Jan 72

The location of basic fibroblast growth factor (bFGF)-like immunoreactivity and nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase (neuronal nitric oxide synthase) activity in the rat basilar artery and in the trigeminal, sphenopalatine and superior cervical ganglia was investigated. bFGF immunoreactivity was seen mainly in adventitial nerve fibers of the rat basilar artery, but not in the endothelium. Electron microscopy of the tunica media showed a number of immunoreactive nerve endings in the vicinity of local smooth muscle cells. Among the cranial ganglia that innervate the basilar artery, only the trigeminal ganglion had bFGF-immunoreactivity neurons. Nerve cells and fibers with NADPH-diaphorase activity were detected in the basilar artery and in the sphenopalatine and trigeminal ganglia, and the co-localization of bFGF and NADPH-diaphorase was noted only in the trigeminal ganglion. Furthermore, Fluro-gold tracing in combination with bFGF immunohistochemistry demonstrated that bFGF-containing nerve fibers in the wall of the basilar artery arise from the trigeminal ganglion. These findings provide a morphological basis for the nitric oxide-mediated dilatation of cerebral arteries by bFGF.
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PMID:Basic fibroblast growth factor-like immunoreactivity in the rat basilar artery with reference to co-localization with NADPH-diaphorase in the trigeminal ganglion. 782 96

In the present experiments we planned to ascertain whether an abnormal production of nitric oxide (NO) by human CHP100 neuroblastoma cells in culture following stimulation of N-methyl-D-aspartate (NMDA) receptors, produced lethal effects in co-cultured human BMEL melanoma cells. Human BMEL melanoma cells in culture were found to be positive to the nicotinamide adenine dinucleotide phosphate diaphorase (NADPH diaphorase) histochemical reaction and produced NO as revealed by measurements of nitrite under basal culture conditions. Exposure for 50 min to aspartate (1-2 mM) or to NMDA (0.5-1.5 mM) did not evoke significant melanoma cell death. The dose of 1.0 mM NMDA applied for 1 min to BMEL cell cultures did not increase significantly nitrite concentrations in comparison to controls. Incubation for 50 min of human CHP100 neuroblastoma cells with NMDA (0.5-1.5 mM) elicited dose-dependent death of BMEL melanoma cells co-cultured in trans-wells. Under these experimental conditions, nitrite levels in cell culture-inserts containing melanoma cells increased by 120% 1 min after application of the excitotoxin (1 mM) to CHP100 neuroblastoma cultures. The lethal effects produced in BMEL cell culture-inserts by application of NMDA (1.0 mM) to CHP100 cultures were prevented by pretreatment of neuroblastoma cultures with MK801 (200 nM). Similar protection was also afforded by N omega-nitro-L-arginine methyl ester (L-NAME; 0.2 mM) and N omega-monomethyl-L-arginine (L-NMMA; 0.2 mM), two inhibitors of nitric oxide synthase, and by haemoglobin (10 microM), a nitric oxide trapping agent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:N-methyl-D-aspartate-induced excessive formation of nitric oxide in CHP100 neuroblastoma cells produces death of BMEL melanoma cells in co-culture. 783 19


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