Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 lung activity of the antioxidant enzymes (AOEs) copper, zinc superoxide dismutase (Cu,Zn SOD), catalase (CAT), and glutathione peroxidase (GP), but not manganese superoxide dismutase (Mn SOD), increases in rats during late gestation; the concentrations of Cu,Zn SOD mRNA and CAT mRNA also rise. During early postnatal exposure to > 95% O2, the lung activity of Cu,Zn SOD, CAT, and GP increases. We now show 1) the lung concentration of Mn SOD mRNA and GP mRNA does not increase in late gestation; 2) Mn SOD activity and the concentration of its mRNA and of GP mRNA increase during exposure of neonatal rats to > 95% O2; and 3) as previously shown for CAT mRNA, the increase in lung concentration of the mRNAs for Cu,Zn SOD, Mn SOD, and GP during early postnatal hyperoxia occurs with a 70-80% prolongation of the half-life of these mRNAs. We conclude that 1) in late gestation the level at which lung AOE gene expression is regulated differs among the enzymes, 2) the level at which lung AOE gene expression is regulated shortly after birth in response to > 95% O2 is uniform among the enzymes, and 3) the lung's AOE response to neonatal hyperoxia is not merely a step-up of its prenatal regulation but involves different regulatory mechanisms based on increased stability of AOE mRNAs.
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PMID:Rat lung antioxidant enzymes: differences in perinatal gene expression and regulation. 141 24

We investigated the developmental profile of copper-zinc and manganese superoxide dismutase (CuZnSOD and MnSOD) in tissue sections obtained from fetal (Day 12 to 21 of gestation) and neonatal (Day 0 and 6) rats. Tissues were stained immunohistochemically with specific antisera against the respective rat SODs. There was a general trend towards richness of SODs in the epithelial linings and metabolically active sites, although differential distribution between the two SODs also existed. At Day 12 of gestation, immunoreactivity for both SODs was detected in the cardiomyocytes but not in other tissues. Hepatocytes expressed CuZnSOD at Day 14 and MnSOD at Day 17. By Day 18 CuZnSOD was detected in the epithelial cells of the gastrointestinal tract, respiratory tract, pancreatic islets, kidneys, and adrenals. These tissues exhibited MnSOD staining at Day 19. CuZnSOD occurred in the epithelia of the thyroid, thymus, and salivary glands at Day 19, while MnSOD was seen at Day 21. The increase in intensity of the staining for SODs occurred no later than postnatal Day 0, indicating that most tissues accumulated SODs during late gestation. Breathing atmospheric oxygen during early extrauterine life did not appreciably intensify the SOD staining. These results suggest that perinatal increase in SODs occurs as a general mechanism of preparation for birth.
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PMID:Immunohistochemical localization of superoxide dismutases in fetal and neonatal rat tissues. 143 Oct 59

Anaerobically grown Escherichia coli contain an enzymatically active iron superoxide dismutase (Fe2-FeSOD) and an inactive iron-substituted manganese superoxide dismutase (Fe2-MnSOD). The anaerobic electron sink, nitrate plus paraquat, enhanced biosynthesis of the MnSOD polypeptide, with accumulation of inactive Fe2-MnSOD. The oxidant, diamide, in contrast, allowed anaerobic production of the active forms of MnSOD, i.e. Mn2-MnSOD and Mn/Fe-MnSOD. Nutritional supplementation with Mn(II) favored occupancy of the MnSOD active site with manganese and allowed anaerobic accumulation of Mn2-MnSOD in the absence of diamide. Enrichment of the anaerobic growth medium with Fe(II) both suppressed biosynthesis of the MnSOD polypeptide and inhibited formation of the active manganese-containing forms. A tac-sodA operon fusion was used to examine the effects of chelating agents and metals on maturation of nascent MnSOD, independent from the transcriptional effects these agents impose. Isopropyl-1-thio-beta-D-galactopyranoside (IPTG) elicited anaerobic biosynthesis of MnSOD, which accumulated as the inactive Fe2-MnSOD. Diamide, with IPTG, allowed formation of active Mn/Fe-MnSOD while 1,10-phenanthroline with IPTG resulted in accumulation of Mn2-MnSOD. These results suggest that iron participates in the redox-sensitive control of the formation of active MnSOD at two levels, i.e. that of transcription as well as that of maturation. During maturation of the nascent MnSOD polypeptide, iron and manganese compete for the metal-binding site; anaerobic conditions favor iron-binding, whereas oxidants, such as dioxygen or diamide, favor binding of manganese.
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PMID:Transcriptional and maturational effects of manganese and iron on the biosynthesis of manganese-superoxide dismutase in Escherichia coli. 157 50

The antioxidant responses of human cell differentiation and membrane fusion are not known and may be important in understanding cellular response to injury in the human placenta. We studied the regulation of antioxidant enzymes in human trophoblasts which differentiate from mononucleated cellular trophoblasts to synctium in vivo and in culture. We characterized morphological and biochemical differentiation of cultured trophoblasts from term placenta in the presence or absence of serum, on different growth surfaces, and with a range of plating densities. Culture of cellular trophoblasts consistently and transiently induced the mRNAs of the mitochondrial antioxidant manganese superoxide dismutase (Mn SOD) but not the mRNAs for the antioxidant enzymes copper zinc SOD or catalase. Fibrin and type I collagen substrates modulated only the expression of the placental specific proteins, human chorionic gonadotropin, and human placental lactogen. Both Mn SOD induction and terminal differentiation, as reflected by human chorionic gonadotropin expression, were dependent on trophoblastic plating density. Increased levels of a smaller Mn SOD mRNA species correlated temporally with an increase in Mn SOD enzyme activity in cultured trophoblasts. These results demonstrate that Mn SOD gene expression and enzyme activity precede or are coordinately regulated with morphological and biochemical trophoblastic differentiation.
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PMID:Induction of manganese superoxide dismutase in cultured human trophoblast during in vitro differentiation. 172 88

Pretreatment or "priming" with vincristine (VcR) has been documented to radioprotect animals from whole body irradiation by accelerating recovery of hematopoietic marrow. The mechanisms underlying this phenomenon are unclear, but the marked similarities between priming with VcR and with immune stimulants such as endotoxin and glucan have led to speculation that VcR may be inducing such radioprotective immunoregulators as interleukin 1 (IL-1) and tumor necrosis factor (TNF). The radioprotective ability of these cytokines, in turn, has been linked to an induction of the antioxidant enzyme manganese superoxide dismutase (Mn SOD). To establish whether priming with VcR is associated with induction of antioxidant enzymes, the activities of Mn SOD, copper-zinc (Cu-Zn) SOD, catalase (CAT), and glutathione peroxidase (GPX) were measured in the marrow of both LLca tumor-bearing and non-tumor-bearing mice given a priming dose of VcR. Results in non-tumor-bearing mice indicate that, similar to IL-1 and TNF administration, VcR treatment increases Mn-SOD activity, but not Cu-Zn SOD, CAT, or GPX activity. Furthermore, this increase occurs at the time VcR priming has been demonstrated previously to exhibit maximal radioprotection, suggesting that it may be contributing factor. However, VcR priming has been demonstrated to radioprotect both tumor-bearing and non-tumor-bearing animals, and no increase in Mn SOD activity (or the other enzymes monitored) was found in the tumor-bearing group. Rather, the presence of tumor significantly suppressed antioxidant enzyme activity. Collectively, the present data suggest that it is unlikely that increased antioxidant enzyme activity is directly involved in the VcR priming response.
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PMID:Marrow antioxidant enzyme activity in tumor-bearing and non-tumor-bearing mice following vincristine treatment. 199 2

Human liver manganese superoxide dismutase has been purified by a short procedure that includes a tri-phase partitioning step to provide materials that can be crystallized from ammonium sulfate. X-ray diffraction studies at 3 A resolution show that the crystals belong to the hexagonal space group P6(1)22 or P6(5)22, with cell dimensions a = b = 81.1 A, c = 242.2 A. Manganese superoxide dismutase levels as determined by enzymatic assay as well as by enzyme-linked immunosorbent assay indicated that considerable variations occur in different livers but the total superoxide dismutase activity (Mn superoxide dismutase plus Cu,Zn superoxide dismutase) seems to be kept at constant values.
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PMID:Preparation of human manganese superoxide dismutase by tri-phase partitioning and preliminary crystallographic data. 202 55

Bacterial lipopolysaccharide (LPS) was shown to produce an induction of manganese superoxide dismutase (Mn SOD) mRNA levels in porcine pulmonary artery endothelial cells (PAEC). Additional studies in porcine PAEC also demonstrated induction of Mn SOD mRNA in response to the inflammatory mediators interleukin 1 and tumor necrosis factor. On the other hand, we observed no change in Mn SOD mRNA within 24 h of a hyperoxic exposure. The induction of Mn SOD by LPS was blocked by both a RNA synthesis inhibitor, actinomycin D, and a protein synthesis inhibitor, cycloheximide. The data implicate the involvement of Mn SOD in the acute phase response of pulmonary endothelial cells.
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PMID:Regulation of manganese superoxide dismutase in porcine pulmonary artery endothelial cells. 205 89

The ferric uptake regulation (fur) gene product participates in regulating expression of the manganese- and iron-containing superoxide dismutase genes of Escherichia coli. Examination of beta-galactosidase activity coded from a chromosomal phi(sodA'-'lacZ) fusion suggests that metallated Fur protein acts as a transcriptional repressor of sodA (manganese superoxide dismutase [MnSOD]). Gel retardation assays demonstrate high-affinity binding of pure, Mn2(+)-Fur protein to DNA fragments containing the sodA promoter. These data and the presence of an iron box sequence in its promoter strongly suggest that sodA is part of the iron uptake regulon. An sodB'-'lacZ fusion gene borne on either a low- or high-copy plasmid yielded approximately two- to threefold more beta-galactosidase activity in Fur+ compared with Fur- cells; the levels of activity depended only weakly on the growth phase and did not change during an extended stationary phase. Measurement of FeSOD activity in logarithmic growth phase and in overnight cultures of sodA and fur sodA backgrounds revealed that almost no FeSOD activity was expressed in Fur- strains, whereas wild-type levels were expressed in Fur+ cells. Fur+ and Fur- cells bearing the multicopy plasmid pHS1-4 (sodB+) expressed approximately sevenfold less FeSOD activity in the fur background, and staining of nondenaturing electrophoretic gels indicates that synthesis of FeSOD protein was greatly reduced in Fur- cells. Gel retardation assays show that Mn2(+)-Fur had a significantly higher affinity for the promoter fragment of sodB compared with that of random DNA sequences but significantly lower than for the promoter fragment of sodA. These observations suggest that the apparent positive regulation of sodB does not result exclusively from a direct interaction of holo (metallated) Fur itself with the sodB promoter. Nevertheless, the sodB gene also appears to be part of the iron uptake regulon but not in the classical manner of Fe-dependent repression.
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PMID:Control of Escherichia coli superoxide dismutase (sodA and sodB) genes by the ferric uptake regulation (fur) locus. 218 Sep 12

We have demonstrated a dramatic induction of manganese superoxide dismutase (Mn-SOD) mRNA levels in response to lipopolysaccharide (LPS), interleukin-1, and tumor necrosis factor in pulmonary epithelial cells. These stimuli had no effect on the corresponding mRNA levels for the copper/zinc (Cu/Zn)-SOD. Identical treatments of pulmonary fibroblast cells with LPS showed only minor changes in the Mn-SOD mRNA levels demonstrating a cell type-specific effect for this acute inflammatory mediator. Furthermore, we have shown that hyperoxia has no effect within 24 h on Mn-or Cu/Zn-SOD mRNA levels in either fibroblasts or epithelial cells. The induction of Mn-SOD mRNA levels by LPS is completely inhibited by actinomycin. Treatment of cells with cycloheximide causes an induction equal to that for LPS, whereas co-treatment with cycloheximide and LPS resulted in a "super induction." This data is strongly suggestive of an important role for the Mn-SOD in the acute inflammatory response.
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PMID:Regulation of manganese superoxide dismutase by lipopolysaccharide, interleukin-1, and tumor necrosis factor. Role in the acute inflammatory response. 240 41

We describe the isolation of a cDNA clone for the nuclear-encoded manganese superoxide dismutase (SOD-3) of maize mitochondria. The cDNA, pSod3.1c, selects by hybridization an RNA which produces the SOD-3 precursor upon in vitro translation. The DNA sequence of pSod3.1c was determined from fragments subcloned in M13. The amino-acid sequence deduced from the nucleotide sequence displays significant homology with the amino-acid sequences of prokaryotic and eukaryotic Mn-SODs, but displays greater homology with mammalian Mn-SOD than it does with yeast or bacterial Mn-SOD. A 31 amino-acid transit peptide also is encoded by the pSod3.1c clone. Analysis of poly(A)+ RNA indicates that Sod3 mRNA is approx. 1250 nucleotides in length. The amount of Sod3 transcript in seedling leaves is increased by light.
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PMID:Isolation and characterization of a cDNA for mitochondrial manganese superoxide dismutase (SOD-3) of maize and its relation to other manganese superoxide dismutases. 246 Dec 25


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