Catalase and Superoxide Dismutase of Root-Colonizing Saprophytic Fluorescent Pseudomonads

Root-colonizing, saprophytic fluorescent pseudomonads of the Pseudomonas putida-P. fluorescens group express similar levels of catalase and superoxide dismutase activities during growth on a sucrose- and amino acid-rich medium. Increased specific activities of catalase but not superoxide dismutase were observed during growth of these bacteria on components washed from root surfaces. The specific activities of both enzymes were also regulated during contact of these bacteria with intact bean roots. Increased superoxide dismutase and decreased catalase activities were observed rapidly, by 10 min upon inoculation of cells onto intact bean roots. Catalase specific activity increased with time to peak at 12 h before declining. By 48 h, the cells displayed this low catalase but maintained high superoxide dismutase specific activities. Catalase with a low specific activity and a high superoxide dismutase activity also were present in extracts of cells obtained from 7-day-old roots colonized from inoculum applied to seed. This specific activity of superoxide dismutase of root-contacted cells was about fourfold-higher in comparison to cells grown on rich medium, whereas the specific activity for catalase was reduced about fivefold. A single catalase isozyme, isozyme A, and one isozyme of superoxide dismutase, isozyme 1, were detected during growth of the bacteria on root surface components and during exposure of cells to intact bean roots for 1 h. An additional catalase, isozyme B, was detected from bacteria after exposure to the intact bean roots for 12 h. Catalase isozyme A and superoxide dismutase isozyme 1 were located in the cytoplasm and catalase band B was located in the membrane of P. putida.     

Superoxide dismutase assay using alkaline dimethylsulfoxide as superoxide anion-generating system

Alkaline dimethylsulfoxide as a superoxide anion-generating system in association with cytochrome c as a superoxide anion-indicating scavenger has been used to develop a new assay for superoxide dismutase. The assay is sensitive (one unit of enzymatic activity is provided by 110 ng of purified copper-containing superoxide dismutase) and highly specific. The nature of this system prevents the usual interferences and its simplicity allows for multiple, rapid measurements of superoxide dismutase activity in biological preparations using either normal or automated procedures.     

Modification of Antioxidant Status of Host Cell in Response to Bougainvillea Antiviral Proteins

Bougainvillea xbuttiana antiviral proteins (AVPs) exhibited high antioxidant activity as measured by ferric reducing / antioxidant (FRAP) power assay. These AVPs were also found to modify activities of antioxidant enzymes like superoxide dismutase, peroxidase and catalase. The activities of superoxide dismutase and peroxidase increased, while the activity of catalase decreased in Tobacco mosaic virus (TMV) infected tobacco leaves. The trend was reversed when the leaves were treated with AVP alone. However, in TMV + AVP treated leaves, the activities of all the three enzymes were found to be midway between the activities obtained with other two treatments. It is therefore, suggested that Bougainvillea AVPs might be controlling viral diseases by scavenging reactive oxygen species as well as by altering host plant cell metabolism to maintain its antioxidant status.     

Iron-dependent superoxide dismutase from novel thermoacidophilic crenarchaeon Acidilobus saccharovorans: from gene to active enzyme

A gene encoding superoxide dismutase was revealed in the genome of the thermoacidophilic crenarchaeon Acidilobus saccharovorans. A recombinant expression vector was constructed and transformed into E. coli cells. The novel recombinant superoxide dismutase was purified and characterized. The enzyme was shown to be an iron-dependent super-oxide dismutase able to bind various bivalent metals in the active site. According to differential scanning calorimetric data, the denaturation temperature of the enzyme is 107.3°C. The maximal activity of the Fe(II) reconstituted enzyme defined by xanthine oxidase assay is 1700 U/mg protein. Study of the thermal stability of the superoxide dismutase samples with various metal contents by tryptophan fluorescence indicated that the thermal stability and activity of the enzyme directly depend on the nature of the reconstituted metal and the degree of saturation of binding sites.     

Effects of growth conditions on superoxide dismutase and catalase activities inSaccharomyces cerevisiae var.ellipsoideus

The superoxide dismutase (SOD) activity inSaccharomyces cerevisiae var.ellipsoideus increased when the cells were exposed to hyperbaric oxygen tension. Ethanol-grown cells, having a more oxidative metabolism, showed higher SOD activities than did glucosegrown cells. In a glucose-limited chemostat the SOD activity increased with the specific oxygen consumption rate. The increase in SOD activity may be explained by a higher intracellular flow of superoxide radicals at higher respiration rates. The catalase activity decreased with increasing growth rates in a glucose-limited chemostat, and the activity was lower in glucosethan in ethanol-grown cells.     

Metabolic bases for differences in sensitivity of two pea cultivars to sulfur dioxide

An oxidative chain reaction of sulfite initiated by the superoxide ion produced in the Mehler reaction has been implicated in the damage of plants exposed to sulfur dioxide. The toxicity of SO₂ may be alleviated by free radical scavenging systems acting to terminate this chain reaction. Hence, the relative sensitivity of plants to SO₂ toxicity could depend on differences in the responses of the levels of antioxidant metabolites and enzymes. The effect of SO₂ exposure on glutathione and ascorbic acid contents, glutathione reductase, and superoxide dismutase activities was assayed in two cultivars (Progress, Nugget) of pea (Pisum sativum L.) in which apparent photosynthesis showed a differential sensitivity to 0.8 microliter per liter SO₂ (R. Alscher, J. L. Bower, W. Zipfel [1987] J Exp Bot 38:99-108). Total and reduced glutathione increased more rapidly and to a greater extent in the insensitive Progress than in the sensitive Nugget, as did glutathione reductase activities. Superoxide dismutase activities increased significantly in Progress, whereas no such change was observed in Nugget as a result of SO₂ exposure. This increase in superoxide dismutase activity was observed at 210 minutes after 0.8 microliter per liter SO₂ concentration had been reached, in marked contrast to the increases in reduced glutathione content and glutathione reductase activity, which were apparent at the 90 minute time point. These data suggest that one basis for the relative insensitivity of the apparent photosynthesis of the pea cultivar Progress to SO₂ is the enhanced response of glutathione reductase, superoxide dismutase activities, and glutathione content.     

Production of functional human CuZn-SOD and EC-SOD in bitransgenic cloned goat milk

Human copper/zinc superoxide dismutase (CuZn-SOD) and extracellular superoxide dismutase (EC-SOD) are two superoxide dismutases that scavenge reactive oxygen species (ROS). Their biological role of eliminating oxidative stress caused by excessive ROS levels in living organisms has been utilized in medical treatment, preventing skin photoaging and food preservation. In this study, we employed two sequences that encode human CuZn-SOD and EC-SOD, along with goat beta-casein 5′ and 3′ regulatory elements, to construct mammary gland-specific expression vectors. Bitransgenic goats were generated using somatic cell nuclear transfer (SCNT), which employed co-transfection to generate bitransgenic goat fetal fibroblast cells as donor cells, and the expression of human CuZn-SOD and EC-SOD and their biological activities were assayed in the milk. PCR and Southern blot analysis confirmed that the cloned goat harbors both hCuZn-SOD and hEC-SOD transgenes. rhCuZn-SOD and rhEC-SOD were expressed in the mammary glands of bitransgenic goat, as determined by western blotting. The expression levels were 100.14?±?5.09 mg/L for rhCuZn-SOD and 279.10?±?5.38 mg/L for rhEC-SOD, as determined using ELISA. A total superoxide dismutase assay with WST-8 indicates that the biological activity of rhCuZn-SOD and rhEC-SOD in goat milk is 1451?±?136 U/mL. The results indicate that two expression vectors can simultaneously transfect goat fetal fibroblast cells as donor cells to produce transgenic goats by SCNT, and the CuZn-SOD and EC-SOD proteins secreted in the mammary glands showed biological activity. The present study thus describes an initial step in the production of recombinant human SODs that may potentially be used for therapeutic purposes.     

Oxidative enzymes in the plerocercoids of Schistocephalus solidus (Cestoda: Pseudophyllidea)

The activities of phenolase, peroxidase, cytochrome oxidase, catalase and superoxide dismutase, as well as the levels of lipid peroxides, were measured in plerocercoids of S. solidus taken from the body cavity of the fish (unactivated) and in plerocercoids which had been cultured in vitro, either under air, or under 95% N₂, 5% CO₂. When cultured anaerobically, the activities of phenolase, peroxidase and cytochrome oxidase all increased dramatically. Aerobically, only phenolase activity increased. Lipid peroxide levels and superoxide dismutase activity was similar at all stages and catalase could not be detected. It is suggested that the increased activity of oxidative enzymes in anaerobically cultured worms is an attempt to compensate for the reduced environmental pO₂.     

Superoxide radicals and antiradical defence of propionic acid bacteria

Superoxide dismutase activity was demonstrated for 6 strains of 3 propionibacteria species. Rather high level of superoxide dismutase activity found in propionibacteria was in accordance with high level of catalase activity reported for propionibacteria previously. Both these activities were shown to have cytozolic localization. For the first time peroxidase activity was detected in gel-fractionated crude cell extracts of propionibacteria. The ability to produce superoxide radicals in NADH-dependent oxidation system was revealed for three strains of the bacteria. The level of superoxide production by the membrane particles of the propionic acid bacteria correlated with the levels of superoxide dismutase and catalase activities and was the lowest for Propionibacterium shermanii. The ability to perform monovalent oxygen reduction during succinate oxidation was not revealed. The intact cells of P. globosum, P. vannielii, P. shermanii apparently did not excrete superoxide radicals into culture fluid during respiration.     

Effects of Cigarette Smoke Extracts on the Growth and Senescence of Skin Fibroblasts In Vitro

Epidemiological studies have shown that cigarette smoke (CS), a very common environmental factor, plays an important role in skin aging. Although some in vivo studies have suggested that CS affects skin aging, the detailed effects of CS on skin cells in vitro remain largely unknown. In this study, we investigated the effects of cigarette smoke extract (CSE) on the growth, proliferation, and senescene of skin fibroblasts and the possible mechanism underlying these effects. Primary cultured human fibroblasts were exposed to a range of concentrations of CSE. Cell viability and cell proliferation after CSE exposure were analyzed with the methyl thiazolyl tetrazolium (MTT) assay and bromodeoxyuridine incorporation assay, respectively. Growth curves of fibroblasts exposed to different concentrations of CSE were developed and prolonged CSE-exposed cells were observed. Morphological and ultrastructural changes in fibroblasts were assessed by inverted light microscopy and transmission electron microscopy (TEM). Dying cells were stained with senescence-associated β-galactosidase (SA β-gal). Intracellular reactive oxygen species (ROS) levels, superoxide dismutase (SOD) activity, and glutathione peroxidase (GSH-Px) activity were determined by a colorimetric method. We found that proliferative capacity and growth were inhibited by CSE exposure in a dose- and time-dependent manner. Fibroblasts exposed to even low concentrations of CSE for a long period of time (5 passages) showed significantly increased SA β-gal activity and typical features of aging cells. Meanwhile, CSE inhibited superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities and augmented ROS levels. Our observations suggest that CSE exposure impairs fibroblast growth and proliferation and leads to features similar to those seen in senescent cells. Oxidative stress injury and inhibition of antioxidant defense activity may be involved in CSE-induced fibroblast senescence.     

Oversynthesis of Riboflavin in the Yeast Pichia guilliermondii is Accompanied by Reduced Catalase and Superoxide Dismutases Activities

Iron deficiency causes oversynthesis of riboflavin in several yeast species, known as flavinogenic yeasts. Under iron deprivation conditions, Pichia guilliermondii cells increase production of riboflavin and malondialdehyde and the formation of protein carbonyl groups, which reflect increased intracellular content of reactive oxygen species. In this study, we found that P. guilliermondii iron deprived cells showed dramatically decreased catalase and superoxide dismutase activities. Previously reported mutations rib80, rib81, and hit1, which affect repression of riboflavin synthesis and iron accumulation by iron ions, caused similar drops in activities of the mentioned enzymes. These findings could explain the previously described development of oxidative stress in iron deprived or mutated P. guilliermondii cells that overproduce riboflavin. Similar decrease in superoxide dismutase activities was observed in iron deprived cells in the non-flavinogenic yeast Saccharomyces cerevisiae.     

Lipid Peroxidation and Antioxidant System in the Tumor and in the Blood of Patients with Nasopharyngeal Carcinoma

Reactive oxygen species play a key role in cancer development by inducing and maintaining the oncogenic phenotypes of cancer cells. In this study, we examined lipid peroxidation and antioxidant enzymes activities in the blood and in the tumor of nasopharyngeal carcinoma patients. Plasma malondialdehyde, conjugated dienes, erythrocytes catalase, and superoxide dismutase activities have been measured in 30 untreated nasopharyngeal carcinoma patients and 30 controls on one hand. On the other hand, tumor malondialdehyde level, catalase, and superoxide dismutase activities have been measured in five nasopharyngeal carcinoma patients and compared with four controls. The lipid peroxidation was confirmed in the plasma by the high levels of malondialdehyde and conjugated dienes (p?<?0.001, respectively). Additionally, significantly higher concentrations of malondialdehyde were found in biopsies compared to the control group (p?<?0.001). In erythrocytes, superoxide dismutase activity was higher in patients than in controls (p?<?0.05), while it was unchanged in the tumor (p?>?0.05). Both erythrocytes and tumor catalase activities were significantly lower in patients than in controls (p?<?0.001, respectively). Statistical studies have shown a positive correlation between malondialdehyde level and IgA antibodies level against Epstein–Barr virus capsid antigen (p?<?0.05). In conclusion, we reported the presence of an oxidative stress in the blood and in the biopsies of nasopharyngeal carcinoma patients where Epstein–Barr virus seems to play a role.     

A high-throughput reporter gene assay to prove the ability of natural compounds to modulate glutathione peroxidase,superoxide dismutase and catalase gene promoters in V79 cells

The aim of the study was to establish a 96-well microtiter plate-based reporter gene assay to test the influence of natural compounds on the promoter activities of rat catalase, human glutathione peroxidase and human superoxide dismutase expressed in V79 cells. Luciferase expression vectors with the promoter regions of the genes coding for the three above-mentioned enzymes were constructed and transfected into V79 cells. Thereafter the ability of sodium ascorbate, L-carnitine, catechin, epigallocatechin gallate, genistein, paraquat, quercetin, 12-O-tetradecanoylphorbol-13-acetate and Trolox to enhance the promoter activities was evaluated. Genistein, paraquat and quercetin led to a statistically significant increase in the glutathione peroxidase and superoxide dismutase gene promoter activities. None of the compounds tested enhanced the catalase gene promoter activity. The reporter gene assay described in this report is easy to perform, fast and allows one to test a high number of compounds and different concentrations of a single compound at the same time.     

Factors Related to the Oxygen Tolerance of Anaerobic Bacteria

The effect of atmospheric oxygen on the viability of 13 strains of anaerobic bacteria, two strains of facultative bacteria, and one aerobic organism was examined. There were great variations in oxygen tolerance among the bacteria. All facultative bacteria survived more than 72 h of exposure to atmospheric oxygen. The survival time for anaerobes ranged from less than 45 min for Peptostreptococcus anaerobius to more than 72 h for two Clostridium perfringens strains. An effort was made to relate the degree of oxygen tolerance to the activities of superoxide dismutase, catalase, and peroxidases in cell-free extracts of the bacteria. All facultative bacteria and a number of anaerobic bacteria possessed superoxide dismutase. There was a correlation between superoxide dismutase activity and oxygen tolerance, but there were notable exceptions. Polyacrylamide gel electropherograms stained for superoxide dismutase indicated that many of the anaerobic bacteria contained at least two electrophoretically distinct enzymes with superoxide dismutase activity. All facultative bacteria contained peroxidase, whereas none of the anaerobic bacteria possessed measurable amounts of this enzyme. Catalase activity was variable among the bacteria and showed no relationship to oxygen tolerance. The ability of the bacteria to reduce oxygen was also examined and related to enzyme content and oxygen tolerance. In general, organisms that survived for relatively long periods of time in the presence of oxygen but demonstrated little superoxide dismutase activity reduced little oxygen. The effects of medium composition and conditions of growth were examined for their influence on the level of the three enzymes. Bacteria grown on the surface of an enriched blood agar medium generally had more enzyme activity than bacteria grown in a liquid medium. The data indicate that superoxide dismutase activity and oxygen reduction rates are important determinants related to the tolerance of anaerobic bacteria to oxygen.     

Effect of CuSO4 and Cu(II)(Gly)2 on some indirect assays for superoxide dismutase activity

The effect of CuSO₄ and Cu(II)(Gly)₂ has been compared with that of superoxide dismutase on the ferricytochrome c reduction and on the nitroblue tetrazolium reduction by an enzymic or chemical flux of superoxide anion radicals as well as on o-dianisidine photooxidation. Both CuSO₄ and Cu(II)(Gly)₂ have been found to inhibit ferricytochrome c reduction as well as the aerobic and anaerobic nitroblue tetrazolium reduction with approximately equal efficiency. Unlike superoxide dismutase they proved capable of inhibiting o-dianisdine photooxidation. The effect of copper either as CuSO₄ or as Cu(II)(Cly)₂ has been established as being due to its interference with the indirect assays for superoxide dismutase activity used. The reasons for this interference have been examined and it is concluded that copper can react with a component of the indirect assay system and depending on the method used it either mimics SOD or acts contrary to the enzyme.     

Antioxidant responses of halophyte plant Aeluropus littoralis under long-term salinity stress

Salinity influences the agricultural production all over the world. This constrain, similar to others biotic and abiotic stresses generate the reactive oxygen species such as superoxide, hydrogen peroxide and hydroxyl radicals. In the evolution process of halophyte plants the mechanisms to detoxify ROS, such as antioxidant enzymes, have been developed. Aeluropus littoralis is a special halophyte that selected to our research, so the plants treated with NaCl at different salt concentration (0, 250, 450 and 650 mM) for a period 45 days. Leaves and roots (separately) collected and their proteins extracted for superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX) and peroxidase (POD) activity assay. Meanwhile the electrolyte leakage of leaves analyzed and increased at 450 and 650 mM of NaCl concentrations. Superoxide dismutase and catalase showed same pattern for changing in enzymatic activities (increasing activity by salt stress in roots and decreasing in shoot at 450 and 650 mM stress), also peroxidase and ascorbate peroxidase activity almost increased in all stress conditions.     

Superoxide dismutase and peroxidase: a positive activity stain applicable to polyacrylamide gel electropherograms.

The oxidation of dianisidine, photosensitized by riboflavin, is accelerated by superoxide dismutase. Polyacrylamide gel electropherograms soaked in riboflavin plus dianisidine and subsequently illuminated develop stable brown bands at positions bearing superoxide dismutase activity. This constitutes a new, convenient, and advantageous activity stain for this class of enzymes. Peroxidases are also stained by this procedure due to the photochemical production of H₂O₂. This does not constitute an interference with the specificity of the stain, since peroxidase bands develop more slowly than superoxide dismutase bands and can be further identified through the use of inhibitors or of independent staining for peroxidase. The new, positive activity stain for superoxide dismutases can be applied to crude extracts of cells.     

Alteration of endogenous glutathione peroxidase, manganese superoxide dismutase, and glutathione transferase activity in cells transfected with a copper-zinc superoxide dismutase expression vector. Explanation for variations in paraquat resistance

Transfection of a human pSV2 (copper-zinc) superoxide dismutase expression vector into murine fibroblasts resulted in stable clones producing increased amounts of copper-zinc superoxide dismutase. A marked increase in endogenous glutathione peroxidase activity (up to 285%) and a smaller increase in glutathione transferase activity (up to 16%) also occurred. Manganese superoxide dismutase activity was decreased in all clones, whereas catalase and NADPH reductase activities were not affected. Alterations in glutathione peroxidase and manganese superoxide dismutase activities correlated with increases in copper-zinc superoxide dismutase activity. Whereas all clones were resistant to paraquat, a direct correlation between copper-zinc superoxide dismutase activity and resistance to paraquat did not exist. In agreement with previous reports clones expressing the highest copper-zinc superoxide dismutase activity did not display the highest resistance to paraquat. However, there was a direct correlation between the increase in glutathione peroxidase activity and paraquat resistance (p less than 0.002).     

Biomarkers of oxidative stress in the fungal strain Humicola lutea under copper exposure

The fungal strain Humicola lutea 103 was used as a model organism to examine the relationship between copper toxicity and oxidative stress in low eukaryotes such as filamentous fungi. Spores or submerged cultures were treated with different copper concentrations and the oxidative stress-inducing agent paraquat (PQ). Oxidative stress biomarkers such as reactive oxygen species (ROS), cyanide-resistant respiration, protein carbonyls, reserve carbohydrates, and antioxidant defence were identified in cells treated or not treated with either copper ions or PQ. Copper inhibited the growth and conidiospore formation of H. lutea 103 in a concentration-dependent manner. This treatment also resulted in increased superoxide anion radical formation. Copper stress was furthermore accompanied by transient accumulation of trehalose and glycogen, as well as increased protein carbonyl content. Compared to control cultures, copper-treated mycelia demonstrated a marked increase in the activity of protective enzymes (superoxide dismutase, catalase, and glucose-6-phosphate dehydrogenase). These increased antioxidant enzyme activities were blocked by inhibitors of protein synthesis, suggesting that de novo enzyme formation was involved. Biomarker response to the heavy metal was similar to treatment with known ROS generators such as PQ. The observed hyper-oxidative status and increased oxidative damage suggest a relationship between acute metal treatment and oxidative stress in fungal cells.     

Quantitative resolution of Cu,Zn- and Mn-superoxide dismutase activities

Assays of superoxide dismutase on total soluble extracts of eucaryotic cells generally result in the sum of activities of the Cu,Zn- and Mn-enzymes. Accurate quantitative resolution of the total activity on the basis of inhibition of the Cu,Zn-enzyme with cyanide may require that a correction is introduced for incomplete saturation with inhibitor at the finite concentration of cyanide used. This correction is calculated using the apparent dissociation constant of one to one complex formation with cyanide, K′, under the conditions of the assay. A linear relationship describing the activity in the presence of graded concentrations of cyanide enables the determination of K′ on soluble extracts without isolation of the Cu,Zn-enzyme. An evaluation of the precision, based on a propagation of error analysis, of different methods for the quantitative resolution of the two dismutases is presented. This reveals most notably that the random error in the resolution in terms of McCord and Fridovich activity units is reduced by carrying out the resolution at high pH (where a lower K′ for cyanide applies) followed by the conversion of the result to pH 7.8.