UNIPROT:P04179 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of phorbol ester (TPA) and other known stimulators such as tumor necrosis factor (TNF), interleukin-1, and lipopolysaccharide on induction of mRNA for manganese-superoxide dismutase (Mn-SOD) were investigated in various cell lines. TPA enhanced Mn-SOD mRNA expression in TNF-resistant cell lines including HeLa cells, in which the other reagents also induced expression of the gene, but did not affect TNF-sensitive cells, in which the other stimulators did not alter expression of the gene. HeLa cells which had been desensitized to TPA by pretreatment with TPA for 24 h expressed Mn-SOD mRNA at a slightly higher level than the cells without TPA treatment. TPA-pretreated cells stimulated with TNF, however, expressed Mn-SOD mRNA at about twice the level of TNF-stimulated, TPA-untreated cells. When protein synthesis was inhibited by cycloheximide during TPA pretreatment, TNF no more enhanced the Mn-SOD mRNA accumulation. These data suggest that at least two separate signal-transducing pathways are involved in expression of this gene. One is triggered by protein kinase C activation itself in the absence of new protein synthesis. The other can be activated by stimulation with TNF, interleukin-1, or lipopolysaccharide and in which a protein factor that can be induced by TPA treatment is involved.
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PMID:Phorbol ester induces manganese-superoxide dismutase in tumor necrosis factor-resistant cells. 174 13

Sphingosine, sphinganine, and other long-chain (sphingoid) bases are highly bioactive intermediates of sphingolipid metabolism that have diverse effects when added to cells, including the inhibition of protein kinase C (PKC) as evaluated by both enzymatic activity and [3H]phorbol dibutyrate ([3H]PDBu) binding. Nonetheless, changes in endogenous sphingoid bases have not been proven to affect PKC or other signal transduction pathways. We have discovered recently that changing J774A.1 cells to new medium results in up to 10-fold increases in sphingoid bases (Smith, E. R., and Merrill, A. H., Jr. (1995) J. Biol. Chem. 270, 18749-18758); therefore, this system was used to elevate sphingosine and sphinganine and determine if PKC was affected. Incubation of J774A.1 cells in new medium for 30 min increased the levels of these endogenous sphingoid bases to approximately 0.5 nmol/mg of protein and decreased [3H]PDBu binding by 40-60%. Addition of NH4Cl, which suppresses the change in sphingosine, restored [3H]PDBu binding. Elevation of endogenous sphinganine by a second method (addition of fumonisin B1, an inhibitor of ceramide synthase) also reduced [3H]PDBu binding; therefore, elevations in sphingosine and sphinganine can both affect PKC. The elevation in sphingoid bases was also associated with an increase in the amount of PKC-delta (the major PKC isozyme in J774A. 1 cells) in the cytosol, as determined by activity assays and immunoblot analyses. Changing the culture medium affected other PKC isozymes, increased cellular levels of diacylglycerol, dihydroceramide, and ceramide, and altered the expression of two genes (the expression of JE was increased, and the induction of MnSOD by TNF-alpha was potentiated). Thus, changing the culture medium has numerous effects on J774A.1 cells, including the modulation of PKC by endogenous sphingoid bases.
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PMID:Changing J774A.1 cells to new medium perturbs multiple signaling pathways, including the modulation of protein kinase C by endogenous sphingoid bases. 903 74

It has been reported that cellular oxidative stress induces apoptosis, that may be inhibited by scavengers of reactive oxygen intermediates (ROIs). Superoxide dismutase (SOD) is among the most active scavengers of ROIs, providing defense against the cellular oxidative stress. Fas antigen and tumor necrosis factor (TNF) receptor are the cell surface proteins, stimulation of which induces apoptosis of keratinocytes. Using SV40-transformed human keratinocytes (SVHK cells), we investigated the effects of anti-Fas antibody and TNF-alpha on the SOD activity. Treatment of SVHK cells with anti-Fas antibody or TNF-alpha in the presence of interferon-gamma (IFN-gamma) resulted in an increase in Mn-SOD activity, Cu,Zn-SOD activity was not affected. In the absence of IFN-gamma, no increase in Mn-SOD activity was detected. The induction of IFN-gamma-dependent Mn-SOD activity by anti-Fas antibody or TNF-alpha was concentration-dependent; the maximal effect was observed at 1-10 micrograms/ml and 5-10 ng/ml, respectively. The increase in Mn-SOD activity was observed at 6 h following the treatment and remained for at least 48 h. Northern blot analyses showed that Mn-SOD mRNA increased within 3 h without a significant change in Cu,Zn-SOD mRNA. The addition of both anti-Fas antibody and TNF-alpha in the presence of IFN-gamma resulted in an additive increase in Mn-SOD activity. Although the addition of 12-o-tetradecanoylphorbol-13-acetate (TPA) singly to the incubation medium had no effect on either Mn-, or Cu,Zn-SOD activity, it significantly augmented the IFN-gamma-dependent induction of Mn-SOD activity by anti-Fas antibody or by TNF-alpha. The protein kinase C inhibitor, 1-(5-isoquinoline-sulfonyl)-2-methyl piperazine dihydrochloride (H-7), significantly inhibited the TPA-dependent increase in Mn-SOD activity. These results indicate that the stimulation of Fas antigen or TNF receptor increases Mn-SOD activity of SVHK cells in the presence of IFN-gamma and that TPA augments the process through the activation of protein kinase C.
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PMID:Interferon-gamma-dependent induction of manganese superoxide dismutase activity of SV40-transformed human keratinocytes by anti-Fas antibody and by TNF-alpha. 965 16

Unlike the early phase of preconditioning (PC), which lasts 2 to 3 hours and protects against infarction but not against stunning, the late phase of PC lasts 3 to 4 days and protects against both infarction and stunning, suggesting that it may have greater clinical relevance. It is now clear that late PC is a polygenic phenomenon that requires the simultaneous activation of multiple stress-responsive genes. Chemical signals released by a sublethal ischemic stress (such as NO, reactive oxygen species, and adenosine) trigger a complex cascade of signaling events that includes the activation of protein kinase C, Src protein tyrosine kinases, and nuclear factor kappaB and culminates in increased synthesis of inducible NO synthase, cyclooxygenase-2, aldose reductase, Mn superoxide dismutase, and probably other cardioprotective proteins. An analogous sequence of events can be triggered by a variety of stimuli, such as heat stress, exercise, and cytokines. Thus, late PC appears to be a universal response of the heart to stress in general. Importantly, the cardioprotective effects of late PC can be reproduced pharmacologically with clinically relevant agents (eg, NO donors, adenosine receptor agonists, endotoxin derivatives, or opioid receptor agonists), suggesting that this phenomenon might be exploited for therapeutic purposes. The purpose of this review is to summarize current information regarding the pathophysiology and mechanism of late PC.
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PMID:The late phase of preconditioning. 1109 May 41

Norepinephrine (NE) causes hypertrophic growth of cardiac myocytes via stimulation of alpha1-adrenergic receptors (alpha1-AR). Reactive oxygen species (ROS) can act as signaling molecules for cell growth. Accordingly, we tested the hypothesis that ROS mediate alpha1-AR-stimulated hypertrophic growth in adult rat ventricular myocytes (ARVM). NE increased the level of intracellular ROS as assessed by lucigenin chemiluminescence or cytochrome c reduction, and this effect was prevented by the superoxide dismutase (SOD)-mimetic MnTMPyP. NE also caused the induction of MnSOD mRNA. alpha1-AR stimulation with NE (1 microM) in the presence of propranolol (2 microM) for 48-96 h caused a hypertrophic growth phenotype characterized by a 36+/-3% increase in 3H-leucine incorporation, a 49+/-14% increase in protein accumulation, a six-fold induction of atrial natriuretic peptide mRNA, actin filament reorganization, and the induction of MnSOD mRNA. These responses were all prevented by pretreatment with the alpha1-AR-selective antagonist prazosin (100 n M) or the SOD-mimetics MnTMPyP (50 microM) and Euk-8 (100 microM). MnTMPyP had no effect on alpha1-AR-stimulated 3H-inositol phosphate turnover or the hypertrophic phenotype caused by the protein kinase C activator phorbol-12-myristate-13-acetate. Thus, ROS play a critical role in mediating the hypertrophic growth response to alpha1-AR-stimulation in ARVM.
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PMID:Reactive oxygen species mediate alpha-adrenergic receptor-stimulated hypertrophy in adult rat ventricular myocytes. 1113 29

The present study was undertaken to investigate the effect of tumour necrosis factor-alpha (TNFalpha) on superoxide dismutase (SOD) expression in human endometrial stromal cells (ESC) and to determine whether there is a difference in responsiveness to TNFalpha between ESC and decidualized ESC. TNFalpha increased manganese-SOD (Mn-SOD) mRNA level and Mn-SOD activity in a dose-dependent manner in ESC. The concentration of TNFalpha required for an effect was lower for decidualized ESC than for non-decidualized ESC. TNFalpha had no effect on copper-zinc-SOD (Cu,Zn-SOD) expression in either type of cell. Incubation of ESC with actinomycin D, an RNA synthesis inhibitor, blocked TNFalpha-induced Mn-SOD mRNA expression, but cycloheximide, a protein synthesis inhibitor, had no effect. H7, an inhibitor of protein kinase C (PKC), also inhibited TNFalpha-stimulated Mn-SOD mRNA expression in both types of cells. These findings suggest that TNFalpha-induced Mn-SOD expression is regulated at the transcription level and mediated by PKC-dependent phosphorylation and that de-novo protein synthesis is not required for the TNFalpha effect. In summary, TNFalpha induces Mn-SOD expression in human ESC. This phenomenon may be important for protection of ESC from cytokine-mediated oxidative stress.
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PMID:Induction of manganese superoxide dismutase by tumour necrosis factor-alpha in human endometrial stromal cells. 1167 73

Metabolism of arachidonic acid (AA) is known to induce in different cell types an oxidative stress via the production of reactive oxygen species. As these latter may be scavenged by antioxidant enzymes as manganese and copper/zinc-dependent superoxide dismutase (MnSOD and Cu/ZnSOD, respectively), we investigated the effects of AA on their expression in human HepG2 hepatoma cells. RT-PCR and Western blot data revealed that AA induced an increase in the MnSOD, but not Cu/ZnSOD, expression at the mRNA and protein levels, respectively. This induction was also marked by an increase in MnSOD activity. The AA-induced MnSOD expression required de novo transcription as demonstrated by cotreatment of HepG2 cells with AA and actinomycin D. The fact that MnSOD expression was not induced when HepG2 cells were cultured with 5,8,11,14-eicosatetraynoic acid (ETYA), a nonmetabolizable analog of AA, or with different inhibitors of the AA metabolism pathways suggested that the metabolism of AA was required. Further investigations into the mechanisms by which AA induced MnSOD expression showed that superoxide anions released from AA metabolism act as second messengers via a signal-controlling pathway involving protein kinase C and p38 mitogen activated protein kinase (MAPK). These results define a novel role of p38 MAPK dependent-pathway in the regulation of MnSOD gene.
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PMID:Induction of MnSOD gene by arachidonic acid is mediated by reactive oxygen species and p38 MAPK signaling pathway in human HepG2 hepatoma cells. 1203 98

BMS-191095, reportedly a selective mitoK(ATP) channel opener which is free from the known side effects of the prototype mitoK(ATP) channel opener diazoxide, induced acute and delayed preconditioning against glutamate excitotoxicity and delayed preconditioning against oxygen-glucose deprivation in primary cultures of rat cortical neurons. BMS-191095 dose dependently depolarized the mitochondria, increased the phosphorylation of PKC isoforms, but had no detectable effects on the activation of MAP kinases and did not influence the expressions of HSP70 and Mn-SOD. In BMS-191095-preconditioned neurons the glutamate-induced free-radical production was abolished. Our data give the first evidence that selective opening of mitoK(ATP) channels with BMS-191095 leads to remarkable neuroprotection via mechanisms that involve mitochondrial depolarization, PKC activation and attenuated free radical production during neuronal stress.
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PMID:The mitochondrial K(ATP) channel opener BMS-191095 induces neuronal preconditioning. 1507 66

Cytokines, phorbol esters, radiation and chemotherapeutic drugs up-regulate the expression of MnSOD (manganese superoxide dismutase). Using the VA-13 cell line, we studied the regulation of SOD2 upon treatment with PMA. Pre-treatment with CHX (cycloheximide) followed by PMA led to significantly higher levels of MnSOD mRNA compared with those with either agent alone, suggesting de novo synthesis of an inhibitory protein. PMA treatment modulates redox-sensitive transcription factors, therefore we evaluated the effects of this combination treatment upon AP-1 (activator protein 1) and NF-kappaB (nuclear factor kappaB), two trans-acting factors suggested to play a role in SOD2 regulation. Co-administration of CHX and PMA led to a time-dependent increase in the binding activity of NF-kappaB. Therefore we evaluated IkappaBalpha (inhibitory kappaBalpha) and found that co-administration decreased its steady-state level compared with either agent alone, suggesting that enhanced NF-kappaB activation is due to inhibition of IkappaBalpha synthesis. PMA activates PKC (protein kinase C) enzymes which phosphorylate IkappaBalpha, leading to its degradation, therefore we used GF109203X to inhibit PKC activity. Stable transfection utilizing a PMA-responsive element in the human SOD2 gene, showed a concentration-dependent decrease in luciferase and NF-kappaB-binding activity with GF109203X. Western blot analysis indicated the presence of several PKC isoforms in the VA-13 cell line; however, PMA pre-treatment specifically down-regulated alpha and betaI, suggesting a role for one or more of these proteins in SOD2 induction. Taken together, these results indicate that the PKC pathway leading to SOD2 induction proceeds at least in part through NF-kappaB and that inhibition of IkappaBalpha synthesis might serve as a potential pharmacological approach to up-regulate MnSOD.
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PMID:IkappaBalpha (inhibitory kappaBalpha) identified as labile repressor of MnSOD (manganese superoxide dismutase) expression. 1533 Jul 61

The early phase of preconditioning (PC) lasts 2 to 3 hours and protects against myocardial infarction, but not against stunning. In contrast, the late phase of PC lasts for 3 to 4 days and protects against both myocardial stunning and infarction, making this phenomenon more clinically relevant. Late PC is a genetic reprogramming of the heart that involves the activation of several stress-responsive genes, which ultimately results in the development of a cardioprotective phenotype. Sublethal ischemic insults release chemical signals (nitric oxide [NO], adenosine, and reactive oxygen species) that trigger a series of signaling events (eg, activation of protein kinase C, Src protein tyrosine kinases, Janus kinases 1/2, and nuclear factor-kappaB) and culminates in increased synthesis of inducible NO synthase, cyclooxygenase-2, heme oxygenase-1, aldose reductase, Mn superoxide dismutase, and probably other cardioprotective proteins. In addition to ischemia, heat stress, exercise, and cytokines can also induce a similar series of events. Perhaps most importantly, many pharmacologic agents (eg, NO donors, adenosine receptor agonists, endotoxin derivatives, or opioid receptor agonists) can mimic the effects of ischemia in inducing the late phase of PC, suggesting that this phenomenon might be exploited therapeutically. The purpose of this review is to summarize the mechanisms that underlie the late phase of ischemic PC.
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PMID:Delayed adaptation of the heart to stress: late preconditioning. 1545 41

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