Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.5.2 (NQO1)
 6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present study, we investigated in the human cerebral cortex whether, as in the rat, basal forebrain cholinergic neurons innervate cortical microvessels and nitric oxide synthase-containing neurons and, further, we compared the status of this innervation between aged controls and neuropathologically confirmed cases of Alzheimer's disease. Using immunocytochemistry of choline acetyltransferase coupled to reduced nicotinamide adenine dinucleotide phosphate-diaphorase histochemistry, we show in young human subjects the presence of a cholinergic input to the cortical microcirculation, and of numerous perisomatic and peridendritic contacts between cholinergic nerve terminals and reduced nicotinamide adenine dinucleotide phosphate-diaphorase neurons. A regional cholinergic denervation of both cortical microvessels and reduced nicotinamide adenine dinucleotide phosphate-diaphorase neurons was found in Alzheimer's disease patients as compared to aged controls, and it paralleled the loss of total cholinergic nerve terminals in the corresponding areas of the cerebral cortex. The vascular denervation was more severe in the temporal (77%, P < 0.05) than in the frontal (48%, not significant) cortex, and the reduced nicotinamide adenine dinucleotide phosphate-diaphorase intracortical neurons were similarly deprived of their cholinergic input (P < 0.01) in both regions. Interestingly, a significant increase in luminal diameter (48%, P < 0.01) and area (> 160%, P < 0.01) of perfused microvessels was found in Alzheimer's tissues, possibly a consequence of both loss of neurogenic input and structural changes in blood vessel walls. The data indicate that intracortical microvessels and nitric oxide neurons in Alzheimer's disease are deprived of a cholinergic neurogenic control, a situation which is likely to result in a compromised ability to adapt cortical perfusion to neuronal activation during functional tasks related to cognition, arousal and attention. We conclude that such deficits in neurovascular regulation are likely to be an important pathogenic factor underlying cerebral blood flow dysfunctions in Alzheimer's disease.
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PMID:Regional cholinergic denervation of cortical microvessels and nitric oxide synthase-containing neurons in Alzheimer's disease. 1039 39

NAD(P)H:quinone oxidoreductase 1 (NQO1), a redox-regulated flavoenzyme, plays a central role in monitoring cellular redox state. NQO1 acts to protect against oxidative stress induced by a variety of metabolic situations, including metabolism of quinones and other xenobiotics, by: (i) functioning as a two electron donor to provide a shunt that competes with the formation of reactive oxygen species; (ii) maintaining reduced coenzyme Q; and (iii) regulating the stress activated kinase pathway. In Alzheimer's disease, while there is abundant evidence for the involvement of oxidative stress, the cause or the consequences are largely unresolved. We suspected that increased NQO1 could signal a major shift in redox balance in Alzheimer's disease and, in this study, found that NQO1 is localized not only to neurofibrillary tangles but also the cytoplasm of hippocampal neurons. By marked contrast, there is very little NQO1 in the same neuronal populations in young and age-matched controls. This novel association of NQO1 further buttresses the nexus of oxidative stress, via free radicals, with selective neuronal vulnerability and also supports a fundamental abnormality in redox balance in Alzheimer's disease.
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PMID:Quinone reductase (NQO1), a sensitive redox indicator, is increased in Alzheimer's disease. 1071 72

NAD(P)H:quinone oxidoreductase (QR) catalyzes the two-electron reduction of quinones, preventing their participation in redox cycling and subsequent generation of reactive oxygen species. Pretreatment of neuroblastoma cells with compounds, such as tert-butylhydroquinone and dimethyl fumarate, that increase QR expression protect cells from oxidative stress-induced cell death by glutamate, H(2)O(2,) and dopamine. The potential neuroprotective role of QR as well as the evidence for oxidative stress-induced neuronal cell death in Alzheimer's disease (AD) led us to examine the expression pattern of QR from AD and control patients. Histochemical staining of hippocampal sections from AD patients revealed QR activity in pyramidal neurons. The presence of QR protein in these neurons also was confirmed by immunoreactivity. In control patients, hippocampal pyramidal neurons were negative for both QR enzymatic activity and QR immunoreactivity. In addition, the QR positive neurons of AD patients were selectively located in areas where neuronal populations exhibited tau immunostaining. Our data demonstrate that QR is up-regulated in hippocampal pyramidal neurons of AD patients. We hypothesize that this is part of a neuroprotective system up-regulated in response to the AD process. Understanding this system may lead to further insights into the pathogenesis and potential new avenues of treatment for AD.
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PMID:NAD(P)H:quinone oxidoreductase activity is increased in hippocampal pyramidal neurons of patients with Aalzheimer's disease. 1092 65

Transgenic mice (Tg2576) that express the Swedish double mutation of human amyloid precursor protein and develop Alzheimer-like beta-amyloid deposits in the aged brain, were used to study the effect of beta-amyloid deposition on expression of both neuronal (nNOS) and inducible nitric oxide synthase (iNOS) in cells surrounding beta-amyloid plaques. Nicotinamide adenine dinucleotide phosphate-diaphorase histochemistry and double immunofluorescent labeling revealed that most of the fibrillary, thioflavine-S-positive cortical beta-amyloid deposits in 13-, 17-, and 21-month-old transgenic animals were closely associated with dystrophic nNOS-positive neurons, while nNOS-bearing neurons located more distal to plaques appeared to be unaffected. There was no significant expression of iNOS in transgenic mouse brain. The data suggest enhanced vulnerability of nNOS-containing neocortical neurons to beta-amyloid toxicity. Alternatively, expression of nNOS may also be a response to plaque-mediated damage of neurons, consistent with a neuroprotective role of nitric oxide.
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PMID:Fibrillary beta-amyloid deposits are closely associated with atrophic nitric oxide synthase (NOS)-expressing neurons but do not upregulate the inducible NOS in transgenic Tg2576 mouse brain with Alzheimer pathology. 1129 Mar 90

Converging evidence supports the role of oxidative stress in the pathology of Alzheimer's disease (AD). This notion is further supported by recent findings of increased NAD(P)H:quinone oxidodreductase (NQO1) activity, a potent antioxidant system, in association with hippocampal AD pathology. If increased NQO1 activity is truly related to the AD process, however, we would expect to see regional co-localization of NQO1 activity with AD pathology throughout affected brain regions and the absence of NQO1 activity in regions unaffected by AD. We examined this hypothesis by measuring NQO1 enzymatic activity and NQO1 immunohistochemical staining in regions commonly affected by the AD process such as frontal cortex and compared this to regions generally unaffected by the AD process such as occipital cortex, cerebellum, and substantia nigra for a group of AD patients and controls. The ratio of frontal to cerebellar NQO1 enzymatic activity was significantly increased in patients with AD (2.07 +/- 1.90) versus controls (0.60 +/- 0.31; P < 0.03). Moreover, regional immunohistochemical staining revealed specific localization of NQO1 staining to astrocytes and neurites surrounding senile plaques. The extent of immunohistochemical staining also closely correlated with the extent of local AD pathology across the various brain regions examined. Neuronal NQO1 staining seen in frontal cortex of AD patients was absent in frontal cortex of controls, but was found to the same extent in neurons of the substantia nigra of both AD patients and controls. We conclude that NQO1 activity co-localizes closely with AD pathology supporting a presumed role as an antioxidant system upregulated in response to the oxidative stress of the AD process. The antioxidant role for NQO1 is further supported by finding increased neuronal NQO1 activity in substantia nigra neurons of both AD patients and controls as this neuronal population is known to be under constant oxidative stress. While requiring further study, these findings, in conjunction with previous work, suggest that increased NQO1 activity may be neuroprotective, may offer novel insights into the pathophysiology of AD and may also provide possible avenues for future treatment.
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PMID:Regional NAD(P)H:quinone oxidoreductase activity in Alzheimer's disease. 1467 32

22R-Hydroxycholesterol is an intermediate in the steroid biosynthesis pathway shown to exhibit a neuroprotective property against beta-amyloid (1-42) (Abeta) toxicity in rat PCl2 and human NT2N neuronal cells by binding and inactivating Abeta. In search of potent 22R-hydroxycholesterol derivatives, we assessed the ability of a series of naturally occurring entities containing the 22R-hydroxycholesterol structure to protect PC12 cells against Abeta-induced neurotoxicity, determined by measuring changes in membrane potential, mitochondrial diaphorase activity, ATP levels and trypan blue uptake. 22R-Hydroxycholesterol derivatives sharing a common spirost-5-en-3-ol or a furost-5-en-3-ol structure were tested. Although some of these compounds were neuroprotective against 0.1 microM Abeta, only three protected against the 1-10 microM Abeta-induced toxicity and, in contrast to 22R-hydroxycholesterol, all were devoid of steroidogenic activity. These entities shared a common structural feature, a long chain ester in position 3 and common stereochemistry. The neuroprotective property of these compounds was coupled to their ability to displace radiolabeled 22R-hydroxycholesterol from Abeta, suggesting that the Abeta-22R-hydroxycholesterol physicochemical interaction contributes to their beneficial effect. In addition, a 22R-hydroxycholesterol derivative inhibited the formation of neurotoxic amyloid-derived diffusible ligands. Computational docking simulations of 22R-hydroxycholesterol and its derivatives on Abeta identified two binding sites. Chemical entities, as 22R-hydroxycholesterol, seem to bind preferentially only to one site. In contrast, the presence of the ester chain seems to confer the ability to bind to both sites on Abeta, leading to neuroprotection against high concentrations of Abeta. In conclusion, these results suggest that spirost-5-en-3-ol naturally occurring derivatives of 22R-hydroxycholesterol might offer a new approach for Alzheimer's disease therapy.
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PMID:Identification of naturally occurring spirostenols preventing beta-amyloid-induced neurotoxicity. 1471 72

Hypercholesterolemia has been suggested as a risk factor for Alzheimer's disease (AD). A genetic risk factor for AD is the E4 allele of apolipoprotein E (apoE). ApoE is the major lipoprotein transporter in the brain, and is mainly produced by glial cells. The present study is focussed on analysing the effects of high cholesterol (HC) diet, duration 9 months, on glial activation in the brain, both in wild type (WT) mice and in mice with a null mutation in the apoE gene (knock-out, KO) mice. The activation of astrocytes and microglia was analysed after immunohistochemical labelling of glial fibrillary acidic protein (GFAP), and F4/80, respectively. In addition, the expression of the antioxidant enzyme NAD(P)H:quinone oxidoreductase (NQO1) was analysed. There was a marked stimulation of astrocyte and microglial activation as well as induced expression of NQO1 in the hippocampus and cerebral cortex upon HC diet. Furthermore, there was significant astrocyte activation in the apoE KO mice, as compared to the WT mice, on ND. The long time exposure to HC diet combined with apoE deficiency resulted in a synergistic effect on the expression of NQO1 in the brain.
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PMID:Effects of high cholesterol diet on gliosis in apolipoprotein E knockout mice. Implications for Alzheimer's disease and stroke. 1545 Jun 74

Alterations of the NAD(P)H:quinone oxidoreductase (NQO1) activity are associated with Alzheimer's disease (AD). A polymorphism consisting of a single nucleotide (C-->T) change at position 609 of NQO1 influences the NQO1 activity. Therefore the NQO1 C609T polymorphism may confer susceptibility for AD developing. To test the hypothesis, we have performed an association study between the NQO1 gene polymorphism C609T and late-onset Alzheimer's disease (LOAD) in Chinese population. Totally 104 LOAD patients and 128 controls were enrolled in our data set. All subjects were genotyped for NQO1 and Apolipoprotein E (APOE). There were no significant differences in NQO1 genotype or allele frequencies between cases and controls. Likewise, with the stratification of APOE psilon4 status, no statistical difference was observed between cases and controls. Our findings suggested that this polymorphism might not represent additional genetic risk factor for LOAD. However, the present study cannot exclude NQO1 as a possible candidate for LOAD. Further study in a larger population and biological functional analysis of NQO1 gene is required to verify the role of NQO1 in LOAD.
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PMID:Association analysis of NAD(P)H:quinone oxidoreductase gene 609 C/T polymorphism with Alzheimer's disease. 1702 52

Aging is often associated with decline of memory function. Aged animals, like humans, can naturally develop memory impairments and thus represent a useful model to investigate genes involved in long-term memory formation that are differentially expressed between aged memory-impaired (AI) and aged memory-unimpaired (AU) animals following stimulation in a spatial memory task. We found that alterations in hippocampal gene expression of transthyretin (TTR), calcineurin, and NAD(P)H dehydrogenase quinone 2 (NQO2) were associated with memory deficits in aged animals. Decreased TTR gene expression could be attributed at least partially to diminish activity of C/EBP immediate-early gene cascade initiated by CREB since protein levels of C/EBP, a transcription factor regulating both TTR and NQO2 expression, was decreased in AI animals. Memory deficits were also found during aging in mice lacking TTR, a retinol transporter known to prevent amyloid-beta aggregation and plaque formation as seen in Alzheimer's disease. Treatment with retinoic acid reversed cognitive deficits in these knock-out mice as well as in aged rats. Our study provides genetic, behavioural and molecular evidence that TTR is involved in the maintenance of normal cognitive processes during aging by acting on the retinoid signalling pathway.
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PMID:Transthyretin: a key gene involved in the maintenance of memory capacities during aging. 1751 93

One of the characteristics of Alzheimer's disease (AD) that hinders the discovery of effective disease-modifying therapies is the multifactorial nature of its etiopathology. To circumvent this drawback, the use of multi-target-directed ligands (MTDLs) has recently been proposed as a means of simultaneously hitting several targets involved in the development of the AD syndrome. In this paper, a new class of MTDLs based on a polyamine-quinone skeleton, whose lead (memoquin, 2) showed promising properties in preclinical investigations (Cavalli et al. Angew. Chem., Int. Ed. 2007, 46, 3689-3692), is described. 3-29 were tested in vitro against a number of isolated AD-related targets, namely, AChE and BChE, and Abeta aggregation (both AChE-mediated and self-induced). Furthermore, the ability of the compounds to counteract the oxidative stress in a human neuronal-like cellular system (SH-SY5Y cells) was assayed, in both the presence and absence of NQO1, an enzyme able to generate and maintain the reduced form of quinone.
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PMID:Novel class of quinone-bearing polyamines as multi-target-directed ligands to combat Alzheimer's disease. 1785 Jan 25


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