UNIPROT:P30044 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidant pollutants such as diesel exhaust particles (DEPs) can initiate and exacerbate airway allergic responses through enhanced IgE production. These effects are especially pronounced in individuals in whom phase II antioxidant enzyme responses are impaired. We confirmed that DEPs and DEP extracts (DEPX) can act directly on B lymphocytes and showed that DEPX could enhance IgH epsilon germline transcription in a B cell line and in PBMCs. We therefore studied the regulation in B cells of NAD(P)H: quinone oxidoreductase (NQO1) as a typical model phase II enzyme and its role in modulating DEPX-enhanced IgE responses. DEPX increased NQO1 mRNA expression in a dose-dependent manner. NQO1 protein induction by DEPX was confirmed by Western blot. DEPs induced activity of the antioxidant response element located in the NQO1 gene promoter. Induction of both NQO1 mRNA and protein expression could be blocked by coculture with an antioxidant and partly repressed by inhibitors of PI3K and p38 MAPK, but not by inhibitors of MAPK/ERK kinase (MEK/ERK) or protein kinase C. The ability of DEPX to enhance IgE production was blocked by the induction of phase II enzymes, including NQO1 in B cells by the chemical sulforaphane. These findings suggest that a natural protective mechanism in B cells from oxidant pollutants such as diesel particles is the expression of phase II enzymes through induction of antioxidant response elements and support the approach of overexpression of these enzymes as a potential future chemopreventative strategy.
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PMID:Phase II enzymes induction blocks the enhanced IgE production in B cells by diesel exhaust particles. 1692 Sep 90

The mechanisms underlying lithium's therapeutic efficacy in the chronic treatment of bipolar disorder are not clearly understood. Useful insights can be obtained by identifying genes that are differentially regulated during chronic lithium treatment. Toward this end, we have used microarray technology to identify mRNAs that are differentially expressed in a human neuronal cell line that has been continuously maintained in therapeutic levels of lithium for 33 days. Significantly, unlike other transcriptomes where predominantly rodent cells were used and a limited number of genes probed, we have used human cells probed with more extensive 44,000 gene microarrays. A total of 671 differentially regulated transcripts, after correcting for false discovery rates, were identified, of which 347 and 324, respectively, were found to be up- and downregulated. Peroxiredoxin 2 (PRDX2), an antioxidant enzyme, was the most upregulated while tribbles homolog 3 (TRB3), a pro-apoptotic protein, was the most downregulated, implying a beneficial effect of lithium on neuronal cells. Several of the most highly regulated genes are novel, uncharacterized and encode proteins of unknown function. Differentially expressed genes associated with phosphoinositide metabolism include those encoding phosphatidyl inositol 4-phosphate 5-kinase type II alpha (PIP5K2A), WD repeat domain, phosphoinositide interacting 1 protein (WIPI49), tribbles homolog 3 (TRB3) and sorting nexin 14 (SNX14). A protein interactome using some of the saliently regulated genes identified protein kinase C (PKC) as a major target for lithium action while a global analysis of all 671 differentially expressed genes identified the mitogen-activated protein kinase pathway as the most regulated. The list of highly regulated genes, besides encoding putative targets for antimanic agents, should prove useful in defining novel pathways, or to better understand the mechanisms, underlying the mood stabilization process.
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PMID:Deciphering the lithium transcriptome: microarray profiling of lithium-modulated gene expression in human neuronal cells. 1822 42

Aluminium (Al) is the most abundant metal known for its neurotoxicity in humans. It gains easy access to the central nervous system under normal physiological conditions and accumulates in different brain regions. It has been reported to be involved in the etiology of several neurodegenerative diseases. In this study, we have investigated the effects of long-term intake of aluminium chloride (AlCl(3)) on the electrophysiological, behavioral, biochemical and histochemical functions of hippocampus. Wistar rats were fed with AlCl(3) at a dose of 50mg/(kgday) for 6 months in the drinking water. Effect of long-term intake of Al was studied on the electrical activity of hippocampal CA1 and CA3 regions in brain of young and old rats. Morris water maze and open field tests were performed to investigate the cognitive and anxiety status of aging rats intoxicated with aluminium. Our studies indicate that aluminium intake results in increased multiple unit activity and adversely affect the spatial learning and memory abilities of both young and old rats. Aluminium intake also inflicts oxidative stress-related damage to lipids, membrane associated proteins (Na-K ATPase and PKC) and endogenous antioxidant enzyme activity (SOD, GPx and GST). The compromised antioxidant system might be playing a crucial role in the observed Al-induced alterations. We have observed that the magnitude of AlCl(3)-induced alteration was considerably higher in younger group of rats compared to older group. In conclusion, the results of the present study implicates that aluminium treatment exerts its neurotoxic effects by altering the overall physiology of brain, and the induced changes were strongly correlated with each other.
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PMID:Aluminium-induced electrophysiological, biochemical and cognitive modifications in the hippocampus of aging rats. 1881 12

The object of this study is to investigate the effects of 50-GHz microwave radiation on the brain of Wistar rats. Male rats of the Wistar strain were used in the study. Animals of 60-day age were divided into two groups-group 1, sham-exposed, and group 2, experimental (microwave-exposed). The rats were housed in a temperature-controlled room (25 degrees C) with constant humidity (40-50%) and received food and water ad libitum. During exposure, rats were placed in Plexiglas cages with drilled ventilation holes and kept in an anechoic chamber. The animals were exposed for 2 h a day for 45 days continuously at a power level of 0.86 microW/cm(2) with nominal specific absorption rate 8.0 x 10(-4) w/kg. After the exposure period, the rats were killed and homogenized, and protein kinase C (PKC), DNA double-strand break, and antioxidant enzyme activity [superoxides dismutase (SOD), catalase, and glutathione peroxidase (GPx)] were estimated in the whole brain. Result shows that the chronic exposure to these radiations causes DNA double-strand break (head and tail length, intensity and tail migration) and a significant decrease in GPx and SOD activity (p = or<0.05) in brain cells, whereas catalase activity shows significant increase in the exposed group of brain samples as compared with control (p = or<0.001). In addition to these, PKC decreased significantly in whole brain and hippocampus (p < 0.05). All data are expressed as mean +/- standard deviation. We conclude that these radiations can have a significant effect on the whole brain.
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PMID:Fifty-gigahertz microwave exposure effect of radiations on rat brain. 1908 49

In this study, we provide evidence that the muscarinic M1 receptor targets NF-E2-related factor-2 (Nrf2), a transcription factor that regulates the expression of genes containing antioxidant response elements (AREs) in their promoters and that collectively constitute the phase II antioxidant response. In hippocampal primary and cerebellar granule neuron cultures expressing endogenous M1 receptor, carbachol increased the levels of a prototypical phase II antioxidant enzyme, heme oxygenase-1. Moreover, in a heterologous system, based on lentiviral expression of M1 receptor in PC12 pheochromocytoma cells, we found that M1 increased total and nuclear Nrf2 protein levels and heme oxygenase-1 messenger RNA and protein levels. Luciferase reporter constructs for AREs and the use of two inhibitors of protein kinase C (PKC), chelerythrine and 2-aminoethyl diphenylborinate, or transfection with relevant expression vectors allowed us to identify Galphaq, phospholipase C-beta and the classical PKC-gamma isoenzyme, as responsible for the regulation of Nrf2. A PKC-insensitive Nrf2S40A single-point mutant partially channeled M1 signaling to AREs, therefore suggesting the participation of additional intermediates. Inhibition of glycogen synthase kinase-3beta (GSK-3beta) augmented M1-dependent activation of AREs while a PKC-insensitive mutant of GSK-3beta (GSK-3beta-Delta9) blocked this effect and prevented M1-induced accumulation of Nrf2 in the nucleus. Our results demonstrate a previously unidentified role of the Galphaq/phospholipase C-beta/PKC/GSK-3beta axis in regulation of Nrf2 by M1. Such role provides additional conceptual support for the use of cholinemimetics in the treatment of pathologies that, like Alzheimer's disease, require a reinforcement of the cell antioxidant capacity.
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PMID:The muscarinic M1 receptor activates Nrf2 through a signaling cascade that involves protein kinase C and inhibition of GSK-3beta: connecting neurotransmission with neuroprotection. 1955 56

Selenium prevents cancer in some cases but fails to do so in others. Selenium's failure in this respect may be due to the development of resistance to its chemopreventive actions. Selenocompounds induce a variety of cancer-preventive actions in tumor cells, but these actions may be limited by the low concentrations of free selenocompounds able to reach cells from the plasma. Therefore, we have sought to identify the chemopreventive action requiring the lowest concentration of the redox-active form of selenium, methylseleninic acid (MSA). At submicromolar concentrations, MSA inhibited the malignant transformation of RWPE-1 prostate epithelial cells. In contrast, in already transformed prostate cancer cells, selenium in the micromolar range was required to inhibit cell growth and invasion and to induce apoptosis. The role of protein kinase C (PKC) in these cellular processes, especially the moderately selenium-sensitive PKCepsilon, was demonstrated using PKC-specific inhibitors and small interfering RNA. PKCepsilon levels inversely correlated with cellular sensitivity to MSA. An over-expression of PKCepsilon minimized MSA-induced inhibition of RWPE-1 cell transformation and induction of apoptosis. Thioredoxin reductase (TR), a selenoprotein, reversed the MSA-induced inactivation of PKC isoenzymes. High TR expression in advanced prostate cancer cells correlated with resistance to MSA. Furthermore, inhibition of TR by its specific inhibitor, auranofin, resulted in increased sensitivity of prostate cancer cells to MSA. Collectively, these results suggest that the cancer-preventive actions of selenium may be negated both by an over-expression of PKCepsilon, which is a redox-sensitive target for MSA, and by the selenoprotein TR, which reverses PKC sulfhydryl redox modification.
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PMID:Negation of the cancer-preventive actions of selenium by over-expression of protein kinase Cepsilon and selenoprotein thioredoxin reductase. 1957 42

Heme oxygenase-1 (HO-1) is one of the antioxidant enzymes which help protect against cellular damage. The present study examined the ability of Quercetin-3-O-beta-D-glucuronopyranoside (QGC), flavonoid glucoside extracted from Rumex Aquaticus Herba, to induce expression of HO-1 and analyzed its signaling mechanism in cultured feline esophageal epithelial cells (EEC). Culture of the esophageal epithelial cells from cat was prepared. The data suggested that QGC could result in enhanced antioxidant enzyme defense system via HO-1 expression and Nrf2 translocation involving both the ERK and PI3K-Akt pathways as well as partly PKC pathways in EEC.
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PMID:Quercetin-3-O-beta-d-glucuronopyranoside (QGC)-induced HO-1 expression through ERK and PI3K activation in cultured feline esophageal epithelial cells. 1968 11

We have previously reported that age-associated oxidative stress via protein kinase C (PKC) increases D1 receptor (D1R) phosphorylation and causes D1R-G protein uncoupling in renal proximal tubules (RPTs) of old Fischer 344 rats. This results in reduced ability of D1R agonist SKF-38393 to inhibit Na+-K+-ATPase in RPTs of old rats. Here, we studied the effect of treadmill exercise on markers of oxidative stress, PKC, D1R phosphorylation, D1R-G protein coupling, and Na+-K+-ATPase activity in RPTs of adult and old rats. We found increased levels of malondialdehyde, a marker of oxidative stress, in RPTs of old rats, which decreased during exercise. Nuclear levels of nuclear erythroid-related factor (Nrf)-2 and nuclear factor (NF)-kappaB in RPTs, transcription factors involved in antioxidant enzyme gene transcription, increased in exercised old rats. This was accompanied by an increase in the activity and expression of antioxidant enzymes, superoxide dismutase and heme oxygenase-1. Age-related decrease in the levels of D1R mRNAs and proteins was attenuated during exercise. Furthermore, exercise in old rats decreased PKC activity and D1R phosphorylation and increased SKF-38393-mediated [35S]guanosine 5'-O-(3-thiotriphosphate) binding (an index of D1R-G protein coupling). SKF-38393 also caused inhibition of Na+-K+-ATPase in these animals. Also, exercise caused a decrease in proteinuria and increase in phosphaturia in old rats. These results suggest beneficial effects of exercise in terms of increasing antioxidant defenses, decreasing oxidative stress, and improving kidney function in general and D1R function in particular in aging. Both Nrf-2 and NF-kappaB seem to play key role in this phenomenon.
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PMID:Exercise activates redox-sensitive transcription factors and restores renal D1 receptor function in old rats. 1975 68

The antiinflammatory and antiapoptotic effects of chondroitin sulfate (CS) are being used to treat osteoarthritis. Recent evidence has revealed that those peripheral effects of CS may also have therapeutic interest in diseases of the central nervous system (CNS). We review here such evidence. Perineuronal nets (PNNs) formed by chondroitin sulfate proteoglycans (CSPGs) may have a neuroprotective action against oxidative stress potentially involved in neurodegeneration. On the other hand, in human neuroblastoma SH-SY5Y cells CS has antioxidant and neuroprotective effects by activating the signaling pathway PKC/PI3K/Akt and inducing the antioxidant enzyme hemoxygenase-1. Consistent with this is the observation that protein kinase C (PKC) blockade overcomes inhibition of neurite outgrowth elicited by CSPGs. In addition, CS protects cortical neurons against excytotoxic death by phosphorylation of intracellular signals and the suppression of caspase-3 activation. Of interest is the finding that a disaccharide derived from CSPG degradation (CSGP-DS) protects neurons against toxicity both in vitro and in vivo. Furthermore, CSGP-DS efficiently protects against neuronal loss in experimental autoimmune encephalomyelitis and uveitis, decreases secretion of tumor necrosis factor-alpha (TNF-alpha) and block necrosis factor kappa B (NF-kappaB) translocation. In conclusion, CS may have neuroprotective properties linked to its antioxidant and antiinflammatory effects.
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PMID:Antioxidant, antiinflammatory and neuroprotective actions of chondroitin sulfate and proteoglycans. 2039 98

Melatonin is a potent free radical scavenger, antioxidant and neuroprotective drug. On the other hand, galantamine is a cholinergic drug with antioxidant and neuroprotective properties linked to inhibition of acetylcholinesterase and allosteric modulation of nicotinic receptors. This investigation evaluated a possible synergistic neuroprotective effect of subeffective concentrations of combined galantamine and melatonin. Human neuroblastoma SH-SY5Y cells were subjected to a mitochondrial oxidative stress, by blockade of mitochondrial complexes I and V with rotenone and oligomycin-A (R/O); cells were treated for 24 hr with R/O. This caused 40% of the cell to die as measured by lactate dehydrogenase (LDH) release. Cell incubation with increasing concentrations of galantamine (10-300 nm) or melatonin (0.3-10 nm) for 24 hr, followed by a 24-hr period with R/O, caused a concentration-dependent protection; maximum protection was achieved with 300 nm galantamine (56% protection) and 10 nm melatonin (50% protection). Combination of subeffective concentrations of melatonin (0.3 nm) and galantamine (30 nm) caused a synergistic and significant protection that was similar to the maximum protection afforded by effective concentrations of melatonin or galantamine alone. This protective effect was completely reversed when nicotinic and melatonin receptors were blocked respectively by mecamylamine and luzindole. The neuroprotective effect was prevented by chelerythrine, LY294002, and Sn (IV) protoporphyrin IX dichloride (SnPP), indicating the participation of the PKC/PI3K/Akt activation and induction of the antioxidant enzyme heme oxygenase-1. The synthesis of novel multitarget compounds having in a single molecule the combined neuroprotective properties of galantamine and melatonin could be a new strategy for potential therapeutic agents in neurodegenerative diseases.
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PMID:Synergistic neuroprotective effect of combined low concentrations of galantamine and melatonin against oxidative stress in SH-SY5Y neuroblastoma cells. 2053 82

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