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)

Alteration of mitochondrial mass of human 143B osteosarcoma cells upon exposure to hydrogen peroxide (H(2)O(2)) was investigated. We found that mitochondrial mass and the intracellular level of H(2)O(2) were increased by exogenous H(2)O(2), which was accompanied with up-regulation of functional PKCdelta. To investigate the role of PKCdelta in H(2)O(2)-induced increase of mitochondrial mass, we treated 143B cells with PKCdelta activator, bistratene A, and PKCdelta inhibitor, rottlerin, respectively. The results show that bistratene A caused an increase of mitochondrial mass and that the H(2)O(2)-induced increase of mitochondrial mass was completely suppressed by rottlerin. Furthermore, we found that activation of PKCdelta by bistratene A increased the intracellular levels of H(2)O(2) and MnSOD protein expression. By contrast, suppression of PKCdelta by rottlerin decreased the intracellular levels of H(2)O(2) and MnSOD protein expression. Moreover, we noted that MnSOD expression was highly correlated with the expression of p53, which was controlled by PKCdelta. Finally, we demonstrated that PKCdelta was overexpressed in skin fibroblasts of patients with MERRF syndrome. Taken together, we conclude that PKCdelta is involved in the regulation of mitochondrial mass and intracellular H(2)O(2) in human cells and may play a key role in the overproliferation of mitochondria in the affected tissues of patients with mitochondrial diseases such as MERRF syndrome.
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PMID:Involvement of protein kinase C delta in the alteration of mitochondrial mass in human cells under oxidative stress. 1678 27

Superoxide dismutase (SODs) are metalloenzymes that catalyze the dismutation of the superoxide anion to molecular oxygen and hydrogen peroxide and, thus, form a crucial part of the cellular antioxidant defense mechanism. In this paper, we used the total fat body RNA of silkworm, Bombyx mori L. to clone and sequence a 648-bp Mn-SOD cDNA fragment through RT-PCR. Furthermore, a newly established Bac-to-Bac/BmNPV Baculovirus expression system was used to overexpress the recombinant Mn-SOD enzyme in silkworm larvae. The hemolymph was collected from the infected larvae 96 h post-infection and subjected to a 12 % SDS-PAGE and Western blotting. A 18.0-kDa protein was visualized after rBacmid/BmNPV/SOD infection. The SOD enzyme activity was determined with a tetrazolium salt for detection of superoxide radicals generated by xanthine and xanthine oxidase and its peak appeared in 96 h post-infection with 2.7 times of the control larvae. The availability of large quantities of SOD that the silkworm provides should greatly facilitate the future research and testing of this protein for potential application in medicine.
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PMID:Cloning and expression of manganese superoxide dismutase of the silkworm, Bombyx mori by Bac-to-Bac/BmNPV Baculovirus expression system. 1680 93

Manganese (Mn) is a ubiquitous and essential element that can be toxic at high doses. In individuals exposed to high levels of this metal, Mn can accumulate in various brain regions, leading to neurotoxicity. In particular, Mn accumulation in the mid-brain structures, such as the globus pallidus and striatum, can lead to a Parkinson's-like movement disorder known as manganism. While the mechanism of this toxicity is currently unknown, it has been postulated that Mn may be involved in the generation of reactive oxygen species (ROS) through interaction with intracellular molecules, such as superoxide and hydrogen peroxide, produced within mitochondria. Conversely, Mn is a required component of an important antioxidant enzyme, Mn superoxide dismutase (MnSOD), while glutamine synthetase (GS), a Mn-containing astrocyte-specific enzyme, is exquisitely sensitive to oxidative stress. To investigate the possible role of oxidative stress in Mn-induced neurotoxicity, a series of inhalation studies was performed in neonatal and adult male and female rats as well as senescent male rats exposed to various levels of airborne-Mn for periods of time ranging from 14 to 90 days. Oxidative stress was then indirectly assessed by measuring glutathione (GSH), metallothionein (MT), and GS levels in several brain regions. MT and GS mRNA levels and regional brain Mn concentrations were also determined. The collective results of these studies argue against extensive involvement of ROS in Mn neurotoxicity in rats of differing genders and ages. There are, however, instances of changes in individual endpoints consistent with oxidative stress in certain brain tissues.
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PMID:Effects of inhaled manganese on biomarkers of oxidative stress in the rat brain. 1684 51

Wheat seedlings (Triticum durum Desf.) were incubated in a solution containing 100 microM CuSO(4) for increasing time ranging from 1 min to 6h. Copper rapidly accumulated into the roots, and its amount increased significantly until 360 min. During the experiment, copper did not cause any lipid peroxidation and K(+) leakage. Up to 60 min of copper treatment the superoxide (O2(*-)) production in root apoplast decreased concomitantly with increase in superoxide dismutase (SOD) activity. In contrast, after 60 min of incubation, SOD decreased and this facilitated an increase in O2(*-) production. In the presence of the SOD inhibitor diethyldithiocarbamic acid, O2(*-) production was more than two times higher and showed a biphasic increase. Very high SOD activity in the apoplast, due to the presence of three different isozymes, one Mn-SOD and two CuZn-SODs, dismutated the radical giving rise, at least in part, to an increase in hydrogen peroxide. The highest value of H(2)O(2) was detected at 15 min, when peroxidase (POD) activity reached the lowest value. Root apoplast showed the presence of at least five different isoforms of PODs, whose pattern did not change during the entire treatment.
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PMID:Early production of activated oxygen species in root apoplast of wheat following copper excess. 1692 Feb 21

Superoxide dismutase (SOD) catalyzes the transformation of superoxide to molecular oxygen and hydrogen peroxide. Of the four known SOD isoforms, distinguished by their metal cofactor (iron, manganese [Mn], copper/zinc, nickel), MnSOD is the dominant form in the diatom Thalassiosira pseudonana. We cloned the MnSOD gene, sodA, using the expression vector pBAD, overexpressed the product in Escherichia coli, and purified the mature protein (TpMnSOD). This recombinant enzyme was used to generate a polyclonal antibody in rabbit that recognizes MnSOD in T. pseudonana. Based on quantitative immunoblots, we calculate that in vivo concentrations of TpMnSOD are approximately 0.9 amol cell(-1) using the recombinant protein as a standard. Immunogold staining indicates that TpMnSOD is localized in the chloroplasts, which is in contrast to most other eukaryotic algae (including chlorophytes and embryophytes) where MnSOD is localized exclusively in mitochondria. Based on the photosynthetic Mn complex in photosystem II, cellular Mn budgets cannot account for 50% to 80% of measured Mn within diatom cells. Our results reveal that chloroplastic MnSOD accounts for 10% to 20% of cellular Mn, depending on incident light intensity and cellular growth rate. Indeed, our analysis indicates that TpMnSOD accounts for 1.4% (+/-0.2%) of the total protein in the cell. The TpMnSOD has a rapid turnover rate with an apparent half-life of 6 to 8 h when grown under continuous light. TpMnSOD concentrations increase relative to chlorophyll, with an increase in incident light intensity to minimize photosynthetic oxidative stress. The employment of a Mn-based SOD, linked to photosynthetic stress in T. pseudonana, may contribute to the continued success of diatoms in the low iron regions of the modern ocean.
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PMID:Localization and role of manganese superoxide dismutase in a marine diatom. 1705 55

Increased amounts of reactive oxygen species (ROS) are generated by skeletal muscle during contractile activity, but their intracellular source is unclear. The oxidation of 2',7'-dichlorodihydrofluorescein (DCFH) was examined as an intracellular probe for reactive oxygen species in skeletal muscle myotubes derived from muscles of wild-type mice and mice that were heterozygous knockout for manganese superoxide dismutase (Sod2(+/-)), homozygous knockout for glutathione peroxidase 1 (GPx1(-/-)), or MnSOD transgenic overexpressors (Sod2-Tg). Myoblasts were stimulated to fuse and loaded with DCFH 5-7 days later. Intracellular DCF epifluorescence was measured and myotubes were electrically stimulated to contract for 15 min. Quiescent myotubes with decreased MnSOD or GPx1 showed a significant increase in the rate of DCFH oxidation whereas those with increased MnSOD did not differ from wild type. Following contractions, myotubes from all groups showed an equivalent increase in DCF fluorescence. Thus the oxidation of DCFH in quiescent skeletal muscle myotubes is influenced by the content of enzymes that regulate mitochondrial superoxide and hydrogen peroxide content. In contrast, the increase in DCFH oxidation following contractions was unaffected by reduced or enhanced MnSOD or absent GPx1, indicating that reactive oxygen species produced by contractions were predominantly generated by nonmitochondrial sources.
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PMID:Genetic modification of the manganese superoxide dismutase/glutathione peroxidase 1 pathway influences intracellular ROS generation in quiescent, but not contracting, skeletal muscle cells. 1714 60

Manganese superoxide dismutase (MnSOD, SOD2) is an essential primary antioxidant enzyme which converts superoxide radical to hydrogen peroxide within the mitochondrial matrix. MnSOD plays a prominent role in protection against many apoptotic stimuli. Its absence may therefore impair the cellular redox balance and enhance apoptosis. Our data show that in Jurkat T cells, following oligomerization of the Fas receptor, MnSOD is selectively degraded during apoptosis. In the presence of cycloheximide, an inhibitor of protein synthesis, the rates of cell death and MnSOD degradation were accelerated. Fas-induced MnSOD cleavage was partially inhibited in the presence of the pan-caspase inhibitor, z-VAD-fmk. MnSOD in the mitochondrial fractions was cleaved in vitro by treatment with the cytosolic fraction of Fas-activated cells. Moreover, two possible cleavage sites of recombinant hMnSOD by direct interaction with recombinant caspase-3 were noted. Cellular and mitochondrial factors were found to be necessary for the interaction. These factors include intracellular mobilization of calcium. Our data indicate that inactivation of MnSOD in receptor-mediated apoptosis by caspase-specific degradation would render the mitochondria sensitive to the steady-state production of superoxide, decrease the steady-state flux of H(2)O(2), expedite the loss of mitochondrial function, and potentiate apoptosis.
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PMID:Manganese superoxide dismutase inactivation during Fas (CD95)-mediated apoptosis in Jurkat T cells. 1715 82

The energy metabolism of the epidermis has been the subject of controversy; thus we characterized the mitochondrial phenotype of human primary keratinocytes and fibroblasts, in cell culture and in human skin sections. We found that keratinocytes respire as much as fibroblasts, however, maximal activities of the respiratory chain (RC) complexes were 2- to 5-fold lower, whereas expression levels of RC proteins were similar. Maximal activities of aconitase and isocitrate dehydrogenase, two mitochondrial enzymes especially vulnerable to superoxide, were lower than in fibroblasts. Indeed, superoxide anion levels were much higher in keratinocytes, and keratinocytes displayed higher lipid peroxidation levels and a lower reduced glutathione/oxidized glutathione ratio, indicating enhanced oxidative stress. Although superoxide dismutase activity and especially expression of the mitochondrial superoxide dismutase, Mn-SOD, were drastically lower in keratinocytes, explaining the high superoxide levels, glutathione peroxidase activity and protein were almost undetectable in fibroblasts. Catalase activity and hydrogen peroxide levels were similar. In summary, we could show that keratinocytes actively use the mitochondrial RC not only for adenosine 5' triphosphate synthesis but also for the accumulation of superoxide anions, even at the expense of mitochondrial functional capacity, indicating that superoxide-driven mitochondrial impairment might be a prerequisite for keratinocyte differentiation.
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PMID:Human epidermal keratinocytes accumulate superoxide due to low activity of Mn-SOD, leading to mitochondrial functional impairment. 1718 81

Cells living under aerobic conditions always face an oxygen paradox. Oxygen is necessary for cells to maintain their lives. However, toxic reactive oxygen species such as the superoxide radical, the hydroxyl radical and hydrogen peroxide are generated from oxygen and damage cells. Oxidative stress occurs as a consequence of excessive production of reactive oxygen species or impaired antioxidant defense systems. Antioxidant enzymes include two types of superoxide dismutase (SOD), which specifically scavenges superoxide radicals: copper-zinc SOD, which is located in the cytosol and Mn-SOD, which is located in the mitochondria. SOD is the first enzymatic step in the defense system against oxidative stress. In addition to ovarian steroid hormones, a number of local factors such as cytokines, growth factors and eicosanoids have been reported to be involved in the regulation of endometrial function. Recently, much attention has been focused on the finding that reactive oxygen species act as second messengers in the regulation of cellular function. Since reactive oxygen species are generated, and SOD is expressed, in the endometrium, it is possible that reactive oxygen species and SOD work as local regulators of endometrial function. The present review summarizes recent findings that reactive oxygen species and SOD play important roles in the process of reproductive physiology such as decidualization and menstruation in the human endometrium.
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PMID:The role of oxygen radical-mediated signaling pathways in endometrial function. 1729 83

Intraoral manganese superoxide dismutase (SOD2)-plasmid liposome (PL) radioprotective gene therapy prolongs the survival of mice with orthotopic oral cavity tumors within the irradiated field. To determine whether the mechanism involved effects in antioxidant pool, C57BL/6J mice bearing orthotopic oral cavity squamous cell carcinoma SCC-VII tumors received intraoral or intravenous MnSOD-PL gene therapy 24 h prior to 18 Gy irradiation to the head and neck region. Glutathione (GSH) levels and levels of radiation-generated nitric oxide and peroxynitrite were measured in orthotopic tumors and in adjacent oral mucosa. MnSOD-PL transfection of the SCC-VII tumor cells, but not normal embryo fibroblasts, produced acute radiosensitization. Furthermore, SCC-VII tumor cells demonstrated increased relative hydrogen peroxide (the product of MnSOD superoxide dismutation)-induced apoptosis in vitro. Radiation decreased levels of GSH and increased GPX in both tumor and normal cells in vitro, effects that were blunted by MnSOD-PL treatment. In vivo irradiation decreased GSH and GPX more effectively in tumors, and the decrease was not reversed by MnSOD-PL therapy. Intravenous but not intraoral administration of epitope-tagged hemagglutinin MnSOD-PL resulted in significant uptake in orthotopic tumors and decreased the levels of radiation-induced nitric oxide and peroxynitrite. Thus normal tissue radioprotective MnSOD-PL gene therapy radiosensitizes tumor cell lines in vitro and has a therapeutic effect on orthotopic tumors in part through its effects on tumor antioxidants.
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PMID:Effects of MnSOD-plasmid liposome gene therapy on antioxidant levels in irradiated murine oral cavity orthotopic tumors. 1731 75


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