EC:1.6.5.2 - FACTA Search

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 and colocalization of nitric oxide synthase (NOS) and reduced nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase was studied in the neuronal elements of the adrenal gland of the rat. Ganglion cells and many nerve fibres in the gland showed both NOS-immunoreactivity and NADPH-diaphorase staining. The adrenal cortical cells showed NADPH-diaphorase staining but were not immunoreactive for NOS. Positive labelling for both NADPH-diaphorase and NOS was found in bundles and in single fibres with varicosities, preferentially located around the noradrenaline (NA)-storing cells. Adrenaline (A)-storing cells and ganglion cells in the medulla, along with the cortical cells and blood vessels in the zona glomerulosa, received relatively fewer positive fibres.
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PMID:Colocalization of nitric oxide synthase and NADPH-diaphorase in rat adrenal gland. 138 64

Norepinephrine was oxidized by the Mn(3+)-pyrophosphate complex to the corresponding o-quinone at pH 6.5. Cyclized norepinephrine ortho-quinone showed an absorption maximum at 289 and 483 nm. No oxygen consumption was observed during oxidation of norepinephrine to o-quinone by Mn3+ and subsequent cyclization. The reduction of cyclized norepinephrine ortho-quinone to the corresponding hydroquinone was catalyzed by DT-diaphorase. However, the hydroquinone formed proved to be unstable in the presence of oxygen, since reduction of cyclized norepinephrine o-quinone by DT-diaphorase was accompanied by continuous oxidation of NADH and oxygen consumption. Addition of the chelator DETAPAC or SOD to the incubation mixture during reduction of cyclized norepinephrine ortho-quinone by DT-diaphorase strongly inhibited NADPH oxidation and oxygen consumption, suggesting that manganese and superoxide radicals were involved in hydroquinone autoxidation. Elimination of the effects of superoxide radicals, manganese and H2O2 on autoxidation of hydroquinone by addition of SOD, catalase and DETAPAC to the incubation mixture resulted in a 79% inhibition of NADH oxidation, suggesting that 21% of the autoxidation is oxygen-dependent. However, the effect of these additions on oxygen consumption was even more pronounced (93% inhibition).
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PMID:The protective effect of superoxide dismutase and catalase against formation of reactive oxygen species during reduction of cyclized norepinephrine ortho-quinone by DT-diaphorase. 803 41

In urethane-anesthetized rats, single neuronal activity was recorded in or around the central gray of the caudal mesencephalon to rostral pons with multibarrel microelectrodes for ionophoretic application of acetylcholine, noradrenaline and serotonin. Neurons were classified by spike shape into broad-spike and brief-spike neurons. In the laterodorsal tegmental nucleus, locus coeruleus or dorsal raphe, broad-spike neurons, marked by Pontamine Sky Blue and discriminated in sections processed for histochemistry of reduced nicotinamide adenine dinucleotide phosphate diaphorase or Nissl staining, were presumed to be cholinergic, noradrenergic or serotonergic, respectively. The majority of these neurons were inhibited through autoreceptors, except some laterodorsal tegmental neurons which might not be furnished by autoreceptors. Noradrenaline and serotonin inhibited more than two-thirds of the laterodorsal tegmental neurons tested, while a few neurons were excited by noradrenaline. Though effects of noradrenaline on dorsal raphe neurons and those of serotonin on locus coeruleus neurons were not clear in many neurons tested, neurons affected in these examinations (30%) were all inhibited clearly and no excitatory effect was observed. Acetylcholine exerted inhibition on about one-half of dorsal raphe neurons, while effects of acetylcholine on locus coeruleus neurons were the only case in the present study in which excitation was the major effect, though more than a half of locus coeruleus neurons were not sensitive to this drug. Thus, in this study some new data on the pharmacological properties of the cholinergic laterodorsal tegmental neurons were obtained. In addition, mutual interactions between brainstem cholinergic, noradrenergic and serotonergic neurons were assayed by comparing the pharmacological properties of these neurons tested with a uniform procedure. The interactions between these diffuse projection neurons may be involved in neural mechanisms controlling vigilance, wakefulness and/or sleep.
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PMID:Mutual interactions among cholinergic, noradrenergic and serotonergic neurons studied by ionophoresis of these transmitters in rat brainstem nuclei. 823 1

1. Neurogenic responses to transmural electrical stimulation were examined in endothelium-denuded extrameningeal (vertebral and carotid) and intrameningeal (spinal, basilar and middle cerebral) arteries isolated from dogs. 2. In the extrameningeal arteries, transmural electrical stimulation produced a phasic contraction. This contraction was abolished by tetrodotoxin, prazosin and guanethidine. However, alpha,beta-methylene ATP and NG-nitro-L-arginine (L-NOARG) had no significant effect on the contractile responses. 3. In the intrameningeal arteries, the neurogenic responses to electrical stimulation were composed of a transient contraction and relaxation. The transient contraction was selectively inhibited by guanethidine L-NOARG abolished the relaxation but not the contraction induced by electrical stimulation. Prazosin had no effect on either neurogenic response. 4. Noradrenaline produced a large contraction in the extrameningeal arteries which was selectively inhibited by prazosin. alpha,beta-Methylene ATP produced neither contraction nor inhibition of the response to noradrenaline in the extrameningeal arteries. 5. In the intrameningeal arteries, alpha,beta-methylene ATP produced a greater contraction than noradrenaline. The response to alpha,beta-methylene ATP was selectively abolished by desensitization of P2x-purinoceptors with alpha,beta-methylene ATP itself. The contractile response to noradrenaline was inhibited by rauwolscine but not by prazosin. 6. ATP produced endothelium-dependent relaxations in the extrameningeal and intrameningeal arteries, which were attenuated by endothelium removal. 7. NADPH diaphorase-positive fibres were dense in the middle cerebral and basilar arteries but rare or absent in the spinal artery. In the extrameningeal arteries diaphorase-positive traces were observed in the vasa vasorum. 8. The present findings indicate that the neurogenic responses of intrameningeal arteries of dogs are composed of NO-ergic and sympathetic purinergic components, while the extrameningeal arteries tested produced only sympathetic adrenergic responses, suggesting that regional heterogeneity may be associated with a sudden transition in innervation and receptor expression at the meninx.
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PMID:Heterogeneity of neurogenic responses in intra- and extrameningeal arteries of dogs. 859 Sep 70

The distribution of nitrergic neurons in the pancreas of the newborn guinea pig was first investigated, using nitric oxide synthase (NOS) immunofluorescence and nicotinamide adenine dinucleotide hydrogen phosphate-diaphorase (NADPH-d) histochemistry. There was total colocalization of NOS and NADPH-d in the pancreatic ganglion cells. NADPH-d was then used as a marker for NOS. In the whole mount preparation of the pancreas, most of the nitrergic neurons were located in the head and the body region, along the branches of pancreatic blood vessels. Some were also associated with the main pancreatic duct, islets of Langerhans and pancreatic acini. To investigate whether NADPH-d stained cells were neurons and whether NADPH-d was colocalized with various neuropeptides and dopamine-beta-hydroxylase (D beta H), an enzyme involved in the synthesis of noradrenaline, antibodies against neuron specific enolase (NSE), vasoactive intestinal peptide (VIP), neuropeptide Y (NPY). D beta H, substance P (SP), calcitonin gene-related peptide (CGRP) and bombesin (BOM) were used. Of all NSE positive ganglion cells, 76.8% were NADPH-d positive. NOS, VIP, NPY and D beta H immunoreactivities were found in both the neuronal cell bodies and nerve fibres in the pancreas while SP, CGRP and BOM immunoreactivities were detected only in the nerve fibres. SP-, CGRP- and BOM-containing nerves were in close contact with both NADPH-d positive as well as NADPH-d negative neurons. The percentages of NADPH-d/VIP, NADPH-d/NPY, NADPH-d/D beta H neurons in the total number of pancreatic neurons were 67.4%, 53.5%, 21.5% respectively. With double labelling in adjacent sections three subpopulations of pancreatic ganglion cells were demonstrated: NADPH-d/VIP/NPY, NADPH-d/VIP/D beta H and NADPH-d/NPY/D beta H.
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PMID:Nitrergic neurons in the pancreas of newborn guinea pig: their distribution and colocalization with various neuropeptides and dopamine-beta-hydroxylase. 898 82

Choline acetyltransferase (ChAT) as a rate-limiting enzyme in the biosynthetic pathway of acetylcholine is thought to be present in all cholinergic neurons. However, its immunoreactivity has not been successfully applied to the study of cholinergic neurons in the pancreas. In a previous study in the pancreas of newborn guinea pig we reported the colocalization of nicotinamide adenine dinucleotide hydrogen phosphate-diaphorase (NADPH-d), a marker for nitric oxide synthase (NOS) with various neuropeptides as well as dopamine-beta-hydroxylase (DbetaH), the enzyme responsible for converting dopamine to noradrenaline. Whether NADPH-d is colocalized with ChAT in the pancreatic neurons is not known. Also it would be interesting to find out whether noradrenaline and acetylcholine could be colocalized in the same pancreatic neurons. In the present study, a method for triple labelling of ChAT, DbetaH and NADPH-d was used to answer the above questions. Colocalization of ChAT, DbetaH and NADPH-d was constantly demonstrated in the same neurons in the same sections. It is concluded that some of the pancreatic neurons may utilize more than one neurotransmitter such as nitric oxide (NO), acetylcholine and noradrenaline to achieve their function. The possible cotransmission of acetylcholine and noradrenaline was extremely intriguing, and its mechanism and significance needs to be further investigated.
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PMID:Colocalization of ChAT, DbetaH and NADPH-d in the pancreatic neurons of the newborn guinea pig. 979 38

Cholinergic neurons of the laterodorsal tegmental nucleus have been hypothesized to play a critical role in the-generation and maintenance of rapid eye movement sleep. Less is known about the function of non-cholinergic laterodorsal tegmental nucleus neurons. As part of our ongoing studies of the brainstem circuitry controlling behavioral state, we have begun to investigate the functional properties of these neurons. In the course of these experiments, we have observed a novel response to the neurotransmitter noradrenaline. Whole-cell patch-clamp recordings of laterodorsal tegmental nucleus neurons were carried out in 21- to 35-day-old rat brain slices. A subpopulation of laterodorsal tegmental nucleus cells responded to a 30-s application of 50 microM noradrenaline with depolarization and a decrease in input resistance which lasted several minutes. Following return to resting membrane potential, these cells invariably exhibited barrages of excitatory postsynaptic potentials which lasted at least 12 min. These excitatory postsynaptic potentials were reversibly abolished by bath application of tetrodotoxin, as well as by the non-N-methyl-D-aspartate receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione, but were insensitive to application of the N-methyl-D-aspartate receptor antagonist 2-amino-5-phosphonopentanoic acid. To examine whether these neurons were cholinergic, the recorded cells were labeled with biocytin and tested for co-localization with reduced nicotinamide adenine dinucleotide phosphate-diaphorase, a marker for laterodorsal tegmental nucleus cholinergic neurons. In every instance, neurons with these properties were non-cholinergic. However, they were always located in close proximity to reduced nicotinamide adenine dinucleotide phosphate-diaphorase-positive laterodorsal tegmental nucleus cells. The present data indicate that noradrenaline, in addition to directly inhibiting cholinergic cells of the laterodorsal tegmental nucleus, also results in the direct and indirect excitation of non-cholinergic cells of the laterodorsal tegmental nucleus. The indirect excitation is long lasting and mediated by glutamatergic mechanisms. Our working hypothesis is that these non-cholinergic cells are local circuit inhibitory interneurons and that prolonged excitation of these neurons by noradrenaline may serve as a mechanism for inhibition of cholinergic laterodorsal tegmental nucleus cells during wakefulness, when noradrenaline tone is high.
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PMID:Noradrenaline excites non-cholinergic laterodorsal tegmental neurons via two distinct mechanisms. 1046 46