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)

Persistent sensory abnormalities consequent to injury may involve prolonged neuroplastic changes in the spinal cord similar to those in long-term potentiation. Molecular markers, like the putative nitric oxide synthase, nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d), can be useful indicators of increased neuronal activity. Peripheral nerve injury markedly increased NADPH-d-labeling in sensory regions of the spinal cord, paralleling induction of abnormal pain (hyperalgesia). Both NADPH-d activation and hyperalgesia were reversed by transplantation of opioid/catecholamine-producing adrenal medullary tissue into the spinal subarachnoid space. These results suggest that adrenal medullary transplants can attenuate abnormal neuronal activity consequent to injury.
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PMID:Induction of spinal NADPH-diaphorase by nerve injury is attenuated by adrenal medullary transplants. 800 64

Purposes of this work were to develop an enzyme system as an in vitro model of the NADPH-dependent component of nitric oxide synthase (NOS) and examine the plausible down-regulation of this system and brain NOS by copper (II)2(3,5-diisopropylsalicylate)4[Cu(II)2(3,5-DIPS)4] as a mechanism accounting for its analgesic, anticonvulsant, and other pharmacological activities. Porcine heart diaphorase (PHD) was found to oxidize 114 microM NADPH with the corresponding reduction of an equivalent amount of 2,6-dichlorophenolindophenol (DCPIP). Addition of Cu(II)2(3,5-DIPS)4 to the reaction mixture decreased the reduction of DCPIP without substantially affecting the oxidation of NADPH. The IC50 for Cu(II)2(3,5-DIPS)4 in inhibiting the reduction of DCPIP was 1.5 microM. Mechanistically, this inhibition of DCPIP reduction was found to be due to the ability of Cu(II)2(3,5-DIPS)4 to serve as a catalytic electron acceptor for reduced PHD, which was enhanced by the presence of a large concentration of DCPIP and inhibited by a large concentration of NADPH. Oxidation of NADPH by PHD in the absence of DCPIP was linearly related to the concentration of Cu(II)2(3,5-DIPS)4 through the concentration range of 5-25 microM Cu(II)2(3,5-DIPS)4 with 50% recovery of NADPH oxidation by PHD at a concentration of 16 microM Cu(II)2(3,5-DIPS)4. Whole rat brain tissue sections incubated in medium containing an NADPH-generating system and nitroblue tetrazolium chloride (NBT) were less intensely stained when Cu(II)2(3,5-DIPS)4 was added to the medium. It is concluded that Cu(II)2(3,5-DIPS)4 serves as an electron acceptor in down-regulating PHD reduction of DCPIP and in down-regulating NOS in brain tissue sections. A decrease in NO synthesis in animal models of seizure, pain, and other disease states with Cu(II)2(3,5-DIPS)4 may account for the anticonvulsant, analgesic, and other pharmacological activities of this complex.
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PMID:Down-regulation of NADPH-diaphorase (nitric oxide synthase) may account for the pharmacological activities of Cu(II)2 (3,5-diisopropylsalicylate)4. 942 75

In a previous study we found that nitric oxide (NO) plays an essential role in the hemodynamic regulation of the feline dental pulp. However, no evidence for the presence of nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) containing nerve fibers was found in the rat and cat dental pulps. In the present study, we are first to report the presence of a small number of NADPH-d positive and/or NO synthase immunoreactive perivascular and solitary varicose axons in the dental pulp and abundant number of similar axons in the gingiva of cats and dogs. These fibres may travel within the inferior alveolar nerve and might participate in sensory (i.e. pain) as well as in autonomic (i.e. regulation of blood flow) innervation of the dental pulp and gingiva.
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PMID:Nitric oxide synthase containing nerves in the cat and dog dental pulp and gingiva. 918 Feb 11

Nitric oxide (NO) is a neuronal messenger that it is thought to be involved in the nociceptive transmission modulation. The activity of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) was shown to be identical to NOS activity in the brain. Since the periaqueductal gray matter (PAG) plays an important role in pain perception and antinociception this study was carried out to monitor the expression of NADPH-d in PAG after nociceptive visceral stimulation. Our data showed that the noxious visceral stimulation significantly increased NADPH-d positive neurons and that these neurons were localized in the ventrolateral areas of the PAG. These findings suggest that NO in the PAG may play a role in pain modulation and antinociception.
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PMID:Induction of NADPH-diaphorase activity in the rat periaqueductal gray matter after nociceptive visceral stimulation. 963 Jul 10

The substantia gelatinosa of the spinal cord (lamina II) is the major site of integration for nociceptive information. Activation of NMDA glutamate receptor, production of nitric oxide (NO), and enhanced release of substance P and calcitonin gene-related peptide (CGRP) from primary afferents are key events in pain perception and central hyperexcitability. By combining reduced nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase histochemistry for NO-producing neurons with immunogold labeling for substance P, CGRP, and glutamate, we show that (1) NO-producing neurons in lamina IIi are islet cells; (2) these neurons rarely form synapses onto peptide-immunoreactive profiles; and (3) NADPH diaphorase-positive dendrites are often in close spatial relationship with peptide-containing terminals and are observed at the periphery of type II glomeruli showing glutamate-immunoreactive central endings. By means of confocal fluorescent microscopy in acute spinal cord slices loaded with the Ca2+ indicator Indo-1, we also demonstrate that (1) NMDA evokes a substantial [Ca2+]i increase in a subpopulation of neurons in laminae I-II, with morphological features similar to those of islet cells; (2) a different neuronal population in laminae I-IIo, unresponsive to NMDA, displays a significant [Ca2+]i increase after slice perfusion with either substance P and the NO donor 3morpholinosydnonimine (SIN-1); and (3) the responses to both substance P and SIN-1 are either abolished or significantly inhibited by the NK1 receptor antagonist sendide. These results provide compelling evidence that glutamate released at type II glomeruli triggers the production of NO in islet cells within lamina IIi after NMDA receptor activation. The release of substance P from primary afferents triggered by newly synthesized NO may play a crucial role in the cellular mechanism leading to spinal hyperexcitability and increased pain perception.
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PMID:Nitric oxide-producing islet cells modulate the release of sensory neuropeptides in the rat substantia gelatinosa. 985 75

Glucocorticoids (GC) provide neuroprotection and early recovery after spinal cord injury (SCI). While several mechanisms were proposed to account for these effects, limited information exists regarding GC actions in sensory areas of the spinal cord. Presently, we studied the time course of Fos expression, and reduced nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemical staining to monitor neuronal responses to SCI with or without GC treatment. Rats with sham-operation or transection at the thoracic level (T7-T8) received vehicle or 5 mg/kg of the GC dexamethasone (DEX) at 5 min post-lesion and were sacrificed 2 or 4 h after surgery. Another group of SCI rats received vehicle or intensive DEX treatment (5 min, 6 h, 18 h and 46 h post-lesion) and were sacrificed 48 h after surgery. The number of NADPH-d positive neurons or Fos immunoreactive nuclei was studied by computer-assisted image analysis in superficial dorsal horn (Laminae I-III) and central canal area (Lamina X) below the lesion. While constitutive Fos immunoreactive nuclei were sparse in controls, SCI increased Fos expression at 2 and 4 h after injury. DEX treatment significantly enhanced the number of Fos positive nuclei in Laminae I-III by 4 h after transection, although the response was not maintained by intensive steroid treatment when tested at 48 h after SCI. NADPH-d positive neurons in Laminae I-III increased at 2 and 4 h after SCI while a delayed increased was found in central canal area (Lamina X). DEX treatment decreased NADPH-d positive neurons to sham-operated levels at all time points examined. Thus, while GC stimulation of Fos suggests activation of neurons involved in sympathetic outflow and/or pain, down-regulation of NADPH-d indicates attenuation of nociceptive outflow, considering the role of enzyme-derived nitric oxide in pain-related mechanisms. Differential hormonal effects on these molecules agree with their localization in different cell populations.
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PMID:Glucocorticoid effects on Fos immunoreactivity and NADPH-diaphorase histochemical staining following spinal cord injury. 1153 30

Although the synaptology, neural connectivity, and the roles played by nitric oxide (NO) and other neurotransmitters have been extensively studied in spinal pain, such information is rather scanty with respect to orofacial pain transmission. This paper presents the findings of several investigations carried out by the author and his colleagues on the roles of NO in orofacial pain transmission in male Wistar rats, using nicotinamide adenosine dinucleotide phosphate-diaphorase (NADPH-d) histochemistry using light and electron microscopy; and NOS immunohistochemistry and immunofluorescence using both light and confocal laser scanning microscopy. The results revealed that (1) a complicated relation existed between the nitrergic axon terminals and dendrites in the caudal part of the spinal trigeminal nucleus (cSTN); (2) the nitrergic neuronal cells bodies were not projection neurons, but rather, local circuit neurons; (3) although the thalamus projecting neurons in the cSTN did not synthesize NO, they could be modulated by NO diffused from nitrergic neurons; (4) c-fos positive neurons in the superficial laminae of the cSTN, detected following subcutaneous injection of 0.5 ml of 4% formalin into the left lateral face of the rats, respond to the release of glutamate through activation of N-methyl-D-aspartate (NMDA), alpha-amine-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) and metabotropic glutamate (mGlu) receptors expressed by these c-fos neurons; and (5) NO might play a seemingly less important role than glutamate in neural transmission.
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PMID:Does nitric oxide play a role in orofacial pain transmission? 1207 72

By means of Fos immunocytochemistry, nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemistry and microinjection methods, the role of nitric oxide synthase (NOS) of dorsal raphe (DR) neurons in the modulation of rats sigmoid pain was studied. The results showed: (1) Rats exhibited aversive behavioral responses related to visceral pain after injecting formalin into the sigmoid wall. NOS neurons in DR were up-regulated, in addition, about 8% of NOS-labeled neurons were Fos positive. By contrast, there were no Fos/NOS double-labeled neurons in the control group. (2) Formalin-induced sigmoid pain scores and the expression of Fos in the spinal cord at S1 segment were decreased after microinjecting L-NAME into the DR. These findings suggest that NOS neurons are involved in the modulation of formalin-induced sigmoid pain and that NO may play an important role in the transmission of visceral nociceptive message in the midbrain.
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PMID:[Microinjection of L-NAME into dorsal raphe nucleus inhibits nociceptive response in sigmoid pain model of rats]. 1456 7

Nitric oxide (NO) is a ubiquitous gaseous neurotransmitter that has been ascribed to a large number of physiological roles in sensory neurons. It is produced by the enzyme nitric oxide synthase (NOS). To identify the NOS-containing structures of rat trigeminal primary afferent neurons, located in the trigeminal ganglion (TrG) and mesencephalic trigeminal nucleus (MTN), histochemistry to its selective marker nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) was applied in this study. In the TrG approximately half of the neuronal population was NADPH-d reactive. Strongly positive were neurons mainly of small-to-medium size. Neuronal profiles of large diameter were less intensely stained. In addition, NADPH-d-positive nerve fibers were dispersed throughout the ganglion. Nitrergic neurons were located in the caudal part and mesencephalic-pontine junction of the MTN. Most of them were large-sized pseudounipolar cells. In a more rostral aspect, the reactive psedounipolar MTN profiles gradually decreased in number and intensity of staining. There, only a fine meshwork of stained thin fibers and perisomatic terminal arborizations, and also some isolated perikarya of NADPH-d stained multipolar MTN neurons, were observed. The predominant NADPH-d localization in smaller in size TrG neurons, which are considered nociceptive, suggests that NO may play a role in the pain transmission in the rat trigeminal afferent pathways. In addition, the wide distribution of NADPH-d activity in large pseudounipolar and certain multipolar MTN neurons provides substantial evidence that NO may also participate in mediating proprioceptive information from the orofacial region. The differential expression patterns of nitrergic fibers in the TrG and MTN suggest that trigeminal sensory information processing is controlled by nitrergic input through different mechanisms.
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PMID:Localization of nitric oxide synthase in rat trigeminal primary afferent neurons using NADPH-diaphorase histochemistry. 1590 Apr 9

The mesencephalic dorsolateral periaqueductal gray (dlPAG) mediates different modalities of aversive behaviors including pain and nociception and is anatomically delineated from other columns of the PAG by its content of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). In many brain regions, neuronal NADPH-d is a nitric oxide (NO) synthase (NOS) and NO production mediates many nociceptive and aversive behavioral responses. The aim of this study was to determine how the noxious stimulant capsaicin affects intracellular dynamics in the dlPAG evidenced by Fos protein immunoreactivity (index of intracellular activation) and the NADPH-d reactivity. The basic hypothesis tested was that the effect of systemic capsaicin administration involved activation of the NO-producing machinery in the dlPAG. Compared to vehicle, capsaicin (50mg/kg, subcutaneous) significantly increased NADPH-d reactivity and Fos expression along the dlPAG neuraxis. However, less than one percent of the capsaicin-induced Fos activation occurred in NADPH-d-positive cells. This suggests that different intracellular mechanisms involving NO and activation of at least one other transmitter substance underlie the effects of capsaicin in the dlPAG. Although NADPH-d is a marker for constitutive NOS, only about two-thirds of the NADPH-d-positive neurons in the dlPAG were colocalized with neuronal NOS immunoreactive cells. This observation suggests that in contrast to other brain regions, neuronal NOS is unlikely to account for all NADPH-d activity in the dlPAG. Taken together, the present results show that the effect of capsaicin requires activation of at least one other transmitter and NADPH-d-dependent NO synthesis involving, but not limited to, the neuronal NOS isoform.
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PMID:Acute capsaicin injection increases nicotinamide adenine dinucleotide phosphate diaphorase staining independent of Fos activation in the rat dorsolateral periaqueductal gray. 1683 9


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