UNIPROT:P04179 - FACTA Search

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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Superoxide dismutases (SODs) are important metalloenzymes which protect cells against oxidative stress by scavenging reactive superoxides. Missense mutations in SODs are known to lead to some familial cases of amyotrophic lateral sclerosis and several forms of cancers. In the present study, we investigate the guanidinium hydrochloride (GdnHCl)-induced equilibrium unfolding of apo-manganese superoxide dismutase (apo-MnSOD) isolated from Vibrio alginolyticus using a variety of biophysical techniques. GdnHCl-induced equilibrium unfolding of apo-MnSOD is non-cooperative and involves the accumulation of stable intermediate state(s). Results of 1-anilino-8-naphthalene sulfonate binding experiments suggest that the equilibrium intermediate state(s) accumulates maximally in 1.5M GdnHCl. The intermediate state(s) appears to be obligatory and occurs both in the unfolding and refolding pathways. Size-exclusion chromatography and sedimentation velocity data reveal that the equilibrium intermediate state(s) is multimeric. To our knowledge, this is the first report of the identification of a multimeric intermediate in the unfolding pathway(s) of oligomeric proteins. The formation and dissociation of the multimeric intermediate state(s) appears to dictate the fate of the protein either to refold to its native conformation or misfold and form aggregates as observed in amyotrophic lateral sclerosis.
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PMID:Equilibrium unfolding of an oligomeric protein involves formation of a multimeric intermediate state(s). 1556 59

The geometric and electronic structures of the six-coordinate azide adduct of oxidized manganese superoxide dismutase (Mn3+ SOD) that is formed at low temperatures, LT N3-Mn3+ SOD, has been examined in detail through a combined spectroscopic/computational approach. Electronic absorption, circular dichroism (CD), magnetic CD (MCD) and variable-temperature, variable-field (VTVH) MCD spectroscopies were used to determine electronic transition energies and to obtain an estimate of zero-field splitting parameters for LT N3-Mn3+ SOD. These experimental data were utilized in conjunction with semiempirical intermediate neglect of differential overlap/spectroscopic parametrization-configuration interaction (INDO/S-CI) and time-dependent density functional theory (TD-DFT) computations to evaluate hypothetical active-site models of LT N3-Mn3+ SOD generated by constrained DFT geometry optimizations. Collectively, our spectroscopic/computational results indicate that N3- binding to Mn3+ SOD at low temperatures promotes neither protonation of the axial solvent ligand nor reorientation of the redox-active molecular orbital, both of which had been previously suggested. Using the same experimentally validated computational approach, models of the product-inhibited form of MnSOD were also developed and evaluated by their relative energies and TD-DFT-computed absorption spectra. On the basis of our computational results as well as previously published kinetic data, we propose that the product-inhibited form of MnSOD is best described as a side-on peroxo-Mn3+ adduct possessing an axial H2O ligand. Notably, attempts to generate a stable hydroperoxo-Mn3+ SOD species by protonation of the proximal O atom of the hydroperoxo ligand resulted in dissociation of HOO- and eventual H+ transfer from Tyr34 to HOO-, generating deprotonated Tyr34 and H2O2. The implications of these results with respect to the mechanism of O2*- dismutation by MnSOD are discussed.
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PMID:Probing the geometric and electronic structures of the low-temperature azide adduct and the product-inhibited form of oxidized manganese superoxide dismutase. 1568 35

The proximate cause of cancer cell death by radiation therapy and a number of therapeutic agents is through generation of reactive oxygen species, resulting in DNA damage as well as mitochondrial membrane disruption, triggering the apoptotic cascade. Because mitochondrial manganese superoxide dismutase catalyzes conversion of superoxide radicals to H(2)O(2), with catalase neutralizing H(2)O(2) and myeloperoxidase converting H(2)O(2) to highly reactive hypochlorous acid, we hypothesized that gene variants could impact the efficacy of treatment for breast cancer and improve survival. Women who were treated with radiation and/or chemotherapy for incident breast cancer at the Arkansas Cancer Research Center from 1985 to 1996 were identified. DNA was extracted from paraffin-embedded normal tissue (n = 279), and MnSOD, CAT, and MPO genotypes were determined using mass spectrometry. Cox proportional hazards models were adjusted for age, race, stage with node status, and estrogen receptor and progesterone receptor status. Women who were homozygous for MPO G alleles, associated with increased transcription, had better survival (hazard ratio, 0.60; 95% confidence interval, 0.38-0.95; P = 0.03) than those with common alleles. Both CAT TT and MnSOD CC genotypes were associated with nonsignificant reduced hazard of death. When we combined genotypes associated with higher levels of reactive oxygen species for MnSOD and MPO, women with MnSOD CC and MPO GG genotypes had a 3-fold decrease in hazard of death (hazard ratio, 0.33; 95% confidence interval, 0.13-0.80; P = 0.01). These data indicate that gene variants that impact oxidative stress modify prognosis after treatment for breast cancer.
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PMID:Polymorphisms in genes related to oxidative stress (MPO, MnSOD, CAT) and survival after treatment for breast cancer. 1570 13

Intratracheal injection of manganese superoxide dismutase-plasmid/liposome (MnSOD-PL) complexes has been demonstrated to delay the onset and reduce the extent of ionizing irradiation-induced murine pulmonary organizing alveolitis/fibrosis. To facilitate translation of this modality to clinical fractionated radiotherapy, inhalation delivery of MnSOD-PL was developed using an ultrasonic nebulizer. Transgene product was quantitated by immunohistochemical quantitation and pulmonary tissue levels of MnSOD biochemical activity. C57BL/6NHsd female mice demonstrated a plasmid dose-dependent increased expression of MnSOD transgene product over the range of 250 microg-2.5 mg of MnSOD-PL administered over a constant 5 min interval. Delivery of a constant concentration of 500 microg of MnSOD-PL with varying times of administration ranging from 0.5 to 10 min demonstrated optimal MnSOD expression at 5 min. Mice pretreated by inhalation delivery of MnSOD-PL demonstrated significantly improved survival after 20 Gy single fraction irradiation to both lungs compared to LacZ-PL inhalation-treated or irradiated control mice. Mice receiving 10 fractions of 3.5 cGy demonstrated increased pulmonary MnSOD transgene product activity by a protocol of every Monday-Wednesday or daily inhalation of MnSOD-PL. Thus, inhalation radioprotective gene therapy using MnSOD-PL provides a practical and effective method for delivery of lung-specific radioprotection during fractionated radiotherapy protocols in a mouse model.
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PMID:Inhalation delivery of manganese superoxide dismutase-plasmid/liposomes protects the murine lung from irradiation damage. 1575 Jun 16

Doxorubicin (DOX), a widely used antitumour drug, causes dose-dependent cardiotoxicity. Cardiac mitochondria represent a critical target organelle of toxicity during DOX chemotherapy. Proposed mechanisms include generation of ROS (reactive oxygen species) and disturbances in mitochondrial calcium homoeostasis. In the present study, we probed the mechanistic link between mitochondrial ROS and calcium in the embryonic rat heart-derived H9c2 cell line and in adult rat cardiomyocytes. The results show that DOX stimulates calcium/calcineurin-dependent activation of the transcription factor NFAT (nuclear factor of activated T-lymphocytes). Pre-treatment of cells with an intracellular calcium chelator abrogated DOX-induced nuclear NFAT translocation, Fas L (Fas ligand) expression and caspase activation, as did pre-treatment of cells with a mitochondria-targeted antioxidant, Mito-Q (a mitochondria-targeted antioxidant consisting of a mixture of mitoquinol and mitoquinone), or with adenoviral-over-expressed antioxidant enzymes. Treatment with GPx-1 (glutathione peroxidase 1), MnSOD (manganese superoxide dismutase) or a peptide inhibitor of NFAT also inhibited DOX-induced nuclear NFAT translocation. Pre-treatment of cells with a Fas L neutralizing antibody abrogated DOX-induced caspase-8- and -3-like activities during the initial stages of apoptosis. We conclude that mitochondria-derived ROS and calcium play a key role in stimulating DOX-induced 'intrinsic and extrinsic forms' of apoptosis in cardiac cells with Fas L expression via the NFAT signalling mechanism. Implications of ROS- and calcium-dependent NFAT signalling in DOX-induced apoptosis are discussed.
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PMID:Doxorubicin activates nuclear factor of activated T-lymphocytes and Fas ligand transcription: role of mitochondrial reactive oxygen species and calcium. 1579 20

Nitroglycerin (GTN)-induced tolerance was reported to be associated with increased levels of reactive oxygen species (ROS) in mitochondria. In the present study, we further investigated the role of ROS for the development of nitrate tolerance by using heterozygous manganese superoxide dismutase knock-out mice (Mn-SOD+/-). Mn-SOD is acknowledged as a major sink for mitochondrial superoxide. Vasodilator potency of mouse aorta in response to acetylcholine and GTN was assessed by isometric tension studies. Mitochondrial ROS formation was detected by 8-amino-5-chloro-7-phenylpyrido[3,4-d]pyridazine-1,4-(2H,3H)dione sodium salt (L-012)-enhanced chemiluminescence and mitochondrial aldehyde dehydrogenase (ALDH-2) activity was determined by a high-performance liquid chromatography-based assay. Aortic rings from Mn-SOD+/- mice showed normal endothelial function and vasodilator responses to GTN. In contrast, preincubation of aorta with GTN or long-term GTN infusion caused a marked higher degree of tolerance as well as endothelial dysfunction in Mn-SOD+/- compared with wild type. Basal as well as GTN-stimulated ROS formation was significantly increased in isolated heart mitochondria from Mn-SOD+/- mice, correlating well with a marked decrease in ALDH-2 activity in response to in vitro and in vivo GTN treatment. The data presented indicate that deficiency in Mn-SOD leads to a higher degree of tolerance and endothelial dysfunction associated with increased mitochondrial ROS production in response to in vitro and in vivo GTN challenges. These data further point to a crucial role of ALDH-2 in mediating GTN bioactivation as well as development of GTN tolerance and underline the important contribution of ROS to these processes.
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PMID:Heterozygous deficiency of manganese superoxide dismutase in mice (Mn-SOD+/-): a novel approach to assess the role of oxidative stress for the development of nitrate tolerance. 1593 16

The generation of superoxide anion radicals (O2*-) and hydrogen peroxide (H2O2) during mitochondrial respiration has been widely postulated to be causally linked to the aging process. The hypothesis that a specific enhancement of mitochondrial O2*-/H2O2 catabolism would delay age-associated physiological changes and extend the lifespan was tested by simultaneous overexpression of MnSOD (manganese superoxide dismutase) and catalase, ectopically targeted to the mitochondrial matrix of transgenic Drosophila melanogaster. The increased activities of these antioxidative enzymes resulted in a decrease of mitochondrial H2O2 release and enhancement of free methionine content. The MnSOD/mitochondrial catalase transgenic flies displayed an enhanced resistance to experimental oxidative stress, induced by dietary H2O2 administration or by exposure to 100% ambient oxygen. However, the lifespan of the flies was decreased, by up to 43%, and this effect coincided with (i) an overall decrease in physical fitness, as measured by the speed of walking, and (ii) an age-related decrease in mitochondrial state 3 (ADP-stimulated) respiration. These findings support the notion that mitochondrial O2*-/H2O2 production at physiological levels is essential for normal biological processes leading to the attainment of a normal lifespan.
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PMID:Enhanced catabolism of mitochondrial superoxide/hydrogen peroxide and aging in transgenic Drosophila. 1595 61

The human c-rel gene (REL), encoding an NF-kappaB transcription factor, is amplified or mutated in several human B-cell lymphomas and can transform chicken lymphoid cells in vitro. We have previously shown that certain deletions of C-terminal transactivation sequences enhance REL's transforming ability in chicken spleen cells. In this report, we have analysed the effect of single amino-acid changes at select serine residues in the C-terminal transactivation domain on REL's transforming ability. Mutation of either of two TNFalpha-inducible serine residues (Ser460 and Ser471) to nonphosphorylatable residues (alanine, asparagine, phenylalanine) made REL more efficient at transforming chicken spleen cells in vitro. In contrast, mutation of Ser471 to a phosphorylation mimetic aspartate residue impaired REL's transforming ability, even though it increased REL's inherent transactivation ability as a GAL4-fusion protein. Alanine mutations of several other serine residues within the transactivation domain did not substantially affect REL's transforming ability. Transactivation by GAL4-REL fusion proteins containing either transformation enhancing or nonenhancing mutations at serine residues was generally similar to wild-type GAL4-REL. However, more transforming mutants with mutations at either Ser460 or Ser471 differed from wild-type REL in their ability to transactivate certain kappaB-site reporter genes. In particular, the SOD2 promoter, encoding manganese superoxide dismutase, was activated less strongly by the more transforming REL mutant REL-S471N in transient assays, but REL-S471N-transformed chicken spleen cells had increased levels of MnSOD protein as compared to wild-type REL-transformed cells. Taken together, our results show that mutations of certain serine residues can enhance REL's transforming ability in vitro and suggest that these mutations increase REL-mediated transformation by altering REL's ability to modulate the expression of select target genes. Furthermore, phosphorylation of Ser471 may be involved in REL-mediated modulation of transformation-specific target gene expression. Lastly, these results suggest that similar mutations in the REL transactivation domain contribute to the development of certain human B-cell lymphomas.
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PMID:Mutations of tumor necrosis factor alpha-responsive serine residues within the C-terminal transactivation domain of human transcription factor REL enhance its in vitro transforming ability. 1602 30

Human manganese superoxide dismutase (hMn-SOD) cDNA was amplified by RT-PCR from total RNA of human liver cell (L02), and cloned into yeast expression vector pPIC9K containing AOX1 promoter and the alpha-factor signal peptide sequence. The resultant pPIC9K-MnSOD was transformed to P. pastoris GS115, screened for Mut+ carrying multiple copies of hMn-SOD. The positive transformants were fermented in flasks and induced by 0.5% methanol. After 4 days of methanol induction, the expressed hMn-SOD was up to 32% of the total proteins in the supernatant by SDS-PAGE with specific activity of 247.7 u/mg.
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PMID:[Cloning and expression of human manganese superoxide dismutase cDNA in Pichia pastoris]. 1610 78

Reactive oxygen species (ROS) are known to be involved in the pathogenesis of traumatic brain injury (TBI). Previous studies have shown that the susceptibility of mice to TBI-induced formation of cortical lesion is determined by the expression levels of copper-zinc and manganese superoxide dismutase (CuZnSOD and MnSOD, respectively). However, the underlying biochemical mechanisms are not understood. In this study, we measured the efficiency of mitochondrial respiration in mouse brains with altered expression of these two enzymes. While controlled cortical impact injury (CCII) with a deformation depth of 2 mm caused a drastic decrease in NAD-linked bioenergetic capacity in brain mitochondria of wild-type mice, the functional decrease was not observed in brains of littermate transgenic mice overexpressing CuZnSOD or MnSOD. In addition, a 1 mm CCII greatly compromised brain mitochondrial function in mice deficient in CuZnSOD or MnSOD, but not wild-type mice. Inclusion of the calcium-chelating agent, EGTA, in the assay solution could completely prevent dysfunction of oxidative phosphorylation in all mitochondrial samples, suggesting that the observed impairment of mitochondrial function was a result of calcium overloading. In conclusion, our results imply that mitochondrial dysfunction induced by superoxide anion radical contributes to lesion formation in mouse brain following physical trauma.
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PMID:Prevention of mitochondrial dysfunction in post-traumatic mouse brain by superoxide dismutase. 1624 85

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