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)

Nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) containing fibers and neurons within the hippocampal formation and entorhinal cortex of the new world monkey were determined using a direct histochemical procedure. Occasional intensely stained bipolar NADPH-d positive neurons were seen in the polymorphic zone within the hilus of the dentate gyrus and molecular layer of the hippocampus. Although virtually no intensely stained cells were seen in the CA subfields, a few small oval lightly stained NADPH-d perikarya were found subjacent to CA2. An occasional intensely stained multipolar NADPH-d containing neuron was observed in the subiculum, presubiculum and parasubiculum. In the entorhinal cortex, NADPH-d cells were scattered in all layers with the greatest preponderance in layers 5-6 and underlying white matter. Dense bands of NADPH-d fibers occurred in the outer layer of the molecular layer of the dentate gyrus and the hippocampo-subicular border. NADPH-d fibers also were seen in pre- and parasubicular regions. NADPH-d fiber staining in entorhinal cortex varied mediolaterally with an increasing laminar distribution more caudally. The heaviest bands of NADPH-d fibers occurred in layers 1 and 4 and the white matter-layer 6 border. The distribution patterns of this select neuronal population may be relevant to the study of hippocampal and entorhinal areas in neurodegenerative diseases.
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PMID:Reduced nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemistry in the hippocampal formation of the New World monkey (Saimiri sciureus). 236 90

Nitric oxide can act as a neurotransmitter and a retrograde modulator of synaptic transmission, but uncontrolled nitric oxide synthase activity has been associated with neural degeneration. Although earlier studies using immunohistochemistry, in situ hybridization, and NADPH-diaphorase staining had suggested that nitric oxide synthase is not expressed in the CA1 neurons of the hippocampus, we have recently demonstrated that NADPH-diaphorase activity can be detected in CA1 neurons of the hippocampus. To confirm that this diaphorase activity reflects nitric oxide synthase, we have developed a more sensitive in situ hybridization procedure, and an RNase protection assay to detect message for constitutive nitric oxide synthase, the form constitutively expressed in many neurons. Message for constitutive nitric oxide synthase is expressed in the hippocampus, and it is localized to neural cell layers CA1, CA3, the dentate gyrus and some displaced neurons, but not to CA2. Expression of constitutive nitric oxide synthase message in the CA1 region was lost when pyramidal neurons died due to transient forebrain ischemia, supporting the conclusion that CA1 pyramidal cells express constitutive nitric oxide synthase. Although constitutive nitric oxide synthase message is strongly expressed in CA3 and the dentate gyrus, there is little diaphorase activity in these cells, suggesting that there may be post-transcriptional controls that limit constitutive nitric oxide synthase expression in some cells. Message for constitutive nitric oxide synthase is also present in a number of other regions, including the amygdala, several hypothalamic nuclei, the cerebellum, the olfactory bulb, two distinct regions of the perirhinal cortex, the subthalamic nuclei, a neuronal layer in the retrosplenial granular cortex, the lateral geniculate nucleus, the presubiculum, the inferior colliculus, the superior colliculus, the pedunculopontine tegmental nucleus, and scattered individual neurons in the cortex, hippocampus and brainstem. These studies support a role for nitric oxide in multiple regions of the central nervous system. In particular, nitric oxide synthase, the enzyme responsible for the synthesis of nitric oxide, is expressed in the CA1 region of the hippocampus, where there is evidence that nitric oxide may play a major role in long-term potentiation. CA1 hippocampal neurons are an example of a population of neurons that express constitutive nitric oxide synthase but are very sensitive to excitotoxicity and ischemic insults.
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PMID:Expression of the neural form of nitric oxide synthase by CA1 hippocampal neurons and other central nervous system neurons. 753 83

In this study, we assessed the effects of normal ageing on the number, distribution, and somal area of nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd)-positive (NADPHd+) and tyrosine hydroxylase-immunoreactive (TH-IR) amacrine cells in human and rat retina. By using a double-labelling immunohistochemical technique, we have shown that these two enzymes are located in separate amacrine cell populations in the human retina. In normal human retinas from organ donors, we have shown that there was no change in the number, somal area, or retinal distribution of NADPHd+ neurons over an age range of 19-89 years. In contrast, there was a significant decrease (P < 0.05) of 52% in the total number of TH-IR neurons in the group aged 65-89 years compared with the group aged 19-64 years. CA1 and CA2 TH-IR neurons were reduced by 44% and 55%, respectively. In young (3 months) and old (2 years) rats, the number of NADPHd+ neurons did not decrease with ageing, but the number of TH-IR neurons was significantly reduced by 21% (P < 0.05). In a companion study on monkey retina, we have shown that a postmortem delay of 12.5 hours between death and fixation results in a decrease of 33% in the number of both NADPHd+ and TH-IR neurons in the retina compared with the number in retinas fixed immediately after death. The findings of this study on the two subsets of amacrine cells, therefore, are likely to demonstrate the consequences of ageing in the retina and might contribute to visual impairment in the elderly.
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PMID:Ageing has a differential effect on nitric oxide synthase-containing and catecholaminergic amacrine cells in the human and rat retina. 941 25

Adequate, high and deficient dietary levels of zinc (Zn) were compared in seizure-susceptible EL mice with respect to convulsions and to nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase-positive hippocampal neurons. Diaphorase positivity is associated with nitric oxide (NO) production. Convulsive seizures in the EL mice given the various diets did not differ over 1-4 weeks, but convulsions in EL mice given the Zn-deficient diet for 4 weeks were more effectively suppressed by injection of zonisamide (ZNS) (75 mg/kg intraperitoneally) than in mice receiving high- or adequate-Zn diet for the same period. Numbers of NADPH diaphorase-positive neurons in the CA1/CA2 region of the hippocampal formation were significantly higher in mice given the Zn-deficient diet for 4 weeks than in mice fed adequate Zn. Mice receiving the high-Zn diet for the same period had significantly fewer NADPH diaphorase-positive neurons in the subiculum than mice with adequate Zn. These results suggest that Zn deficiency inhibits convulsive seizures of EL mice, and that dietary Zn influences numbers of NO producing neurons in the hippocampal formation.
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PMID:Influence of dietary zinc on convulsive seizures and hippocampal NADPH diaphorase-positive neurons in seizure susceptible EL mouse. 957 68

We investigated changes in numbers of nitric-oxide-producing cells in the hippocampal formation, striatum, and temporal cortex of mice 24 h after intraperitoneal administration of kainic acid (5, 10, 15, and 20 mg/kg) or domoic acid (1, 2, and 4 mg/kg). Nitric-oxide-producing cells were demonstrated histochemically by staining for nicotinamide adenine dinucleotide phosphate diaphorase. Nicotinamide adenine dinucleotide phosphate-diaphorase-positive neurons in the dentate gyrus and the subiculum did not change in number following administration of kainic acid or domoic acid at any dose. Positive neurons in the CA3 region of mice treated with kainic acid or domoic acid at any dose were significantly fewer than in controls. Although the numbers of positive neurons in the CA1/CA2 regions did not differ from those of controls at any of the four doses of kainic acid, positive cells in the CA1/CA2 were significantly more numerous than in controls at any dose of domoic acid. Although no significant differences in the numbers of positive neurons in the striatum were apparent between controls and any of the four doses of kainic acid, domoic acid significantly decreased the numbers of such cells. These results suggest that systemically administered kainic acid and domoic acid affect differentially nitric-oxide-producing cells in the hippocampal formation.
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PMID:Kainic and domoic acids differentially affect NADPH-diaphorase neurons in the mouse hippocampal formation. 1022 34

Recent evidence suggests an important role for NO in cholinergic models of epilepsy. Nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd), a marker of NO containing neurons, was shown to intensely colocalize with GABA in double-labeling studies performed in the hippocampal formation (exception made for the pyramidal cell layer) (Valtschanoff et al., J Comp Neurol 1993:331:111-121). In this sense, it further characterizes an extremely important cell category due to the relevant involvement of inhibitory systems in the mechanisms of genesis and propagation of seizures. Here, we assessed the histochemistry for NADPHd in the hippocampal complex of chronic pilocarpine-epileptic animals. NADPHd-positive cells were lost in almost every hippocampal subfield in pilocarpine-treated rats. The central portion of the polymorphic layer of the dentate gyrus (hilus) presented one of the highest losses of NADPHd-positive cells (55-79%) in the hippocampus. A significant loss of NADPHd-positive cells was seen in strata oriens, pyramidale, and radiatum CA1, CA2, and CA3 subfields. NADPHd staining in the subicular pyramidal cell layer was not different from that observed in controls. A significant loss of NADPHd-stained cells was observed in entorhinal cortex layers II and III in the epileptic group. For entorhinal cortex layers V and VI, however, results varied from an almost complete tissue destruction to an overexpression of NADPHd-positive cells, as well as an increase in neuropil staining. In summary, loss of NADPHd staining was not uniform throughout the hippocampal formation. There has been a growing support for the notion that GABAergic neurons in the hippocampal formation are not equally sensitive to insults. Our results suggest that, as a marker for a subpopulation of GABAergic neurons, NADPHd helps in further refining the characterization of the different neuronal populations sensitive to epileptic activity.
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PMID:Loss of NADPH diaphorase-positive neurons in the hippocampal formation of chronic pilocarpine-epileptic rats. 1040 44

This study investigated the expression of nitric oxide (NO)-synthesizing enzymes and the glial reaction in the rat hippocampal formation following sleep deprivation for 5 days. Nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) reactivity was markedly reduced in the hippocampal CA1, CA2 and CA3 sectors as well as in the dentate gyrus, suggesting a suppression of NO production in these areas. Microglial cells were hypertrophic and showed an up-regulation of complement type 3 receptors as determined by antibody OX-42. However, expression of major histocompatibility complex class I and II antigens, and antigen of monocyte/macrophage lineage marked by OX-18, OX-6 and ED1, respectively, was undetected. Astrocytes also displayed hypertrophied processes with enhanced glial fibrillary acidic protein (GFAP) immunoreactivity. Western blots of hippocampal tissues corroborated the above-mentioned morphological findings in that expression of NO-synthase (NOS) was decreased while that of OX-42 and GFAP was increased in the sleep-deprived rats. Since NO is thought to be involved in memory consolidation processes in the hippocampus during sleep, the inhibition of NADPH-d and NOS reactivities may account for the memory decline after long-term sleep deprivation. The concomitant reactions in microglia and astrocytes suggest the involvement of these cells in the deleterious effect of prolonged sleep deprivation.
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PMID:Sleep deprivation inhibits expression of NADPH-d and NOS while activating microglia and astroglia in the rat hippocampus. 1276 54