Structure-Function Relationships in Iron and Manganese Superoxide Dismutases

Using the complete sequences for MnSOD from Thermus thermophilus and for FeSOD from E. coli, structural models for both oxidized enzymes have been refined, the Mn protein to an R of 0.186 for all data between 10.0 and 1.8 Å, and the Fe protein to an R of 0.22 for data between 10.0 and 2.5 A. The results of the refinements support the presence of a solvent as a fifth ligand to Mn(III) and Fe(III) and a coordination geometry that is close to trigonal bipyramidal. The putative substrate-entry channel is comprised of residues from both subunits of the dimer; several basic residues that are conserved may facilitate approach of O^?₂, while other conserved residues maintain interchain packing interactions. Analysis of the azide complex of Fe(III) dismutase suggests that during turnover O^?₂ binds to the metal at a sixth coordination site without displacing the solvent ligand. Because crystals reduced with dithionitc show no evidence for displacement of the protein ligands, the redox-linked proton acceptor (C. Bull and J.A. Fee (1985), Journol of the American Chemistry Society 107, 3295–3304) is unlikely to be one of the histidines which bind the metal ion. Structural, kinetic, titration, and spectroscopic data can be accommodated in a mechanistic scheme which accounts for the differential titration behaviour of the Fe(II1) and Fc(II) enzymes at neutral and high pH.     

鸡冠花幼苗热胁迫耐性与其SOD之间的关联

为探讨鸡冠花热胁迫耐性与其SOD之间的关联,选用耐热品种Variety-Centrury Green 10叶期幼苗为试材,用二乙基二硫代氨基甲酸钠(DDTC)进行48 h预处理,之后在45℃人工培养箱中进行热胁迫处理,观察其外观形态.结果表明,20 mmol/L DDTC预处理显著抑制叶片SOD活性,明显减弱鸡冠花的热胁迫耐性,表现为幼苗热胁迫耐受时间显著缩短,弯颈、死亡率明显提高.在自然状态下,叶片中有1种MnSOD、1种Cu/ZnSOD和3种FeSOD;迁移率大小依次为Cu/ZnSODFeSODMnSOD;谱带强弱依次为FesOD>Cu/znSOD>MnSOD.经热胁迫处理后,各种SOD同工酶条带亮度均呈现不同程度的增强—减弱的变化趋势,并诱导产生了1条新的Cu/Zn-SOD条带,与此同时MnSOD条带最先消失.由此推测,鸡冠花品种间耐热性差异与其SOD活性相关,与胁迫强度相对应,同时也与Cu/ZnSOD2的诱导产生相关联. 表现为幼苗热胁迫耐受时间显著缩短,弯颈、死亡率明显提高.在自然状态下,叶片中有1种MnSOD、1种Cu/ZnSOD和3种FeSOD;迁移率大小依次为Cu/ZnSODFeSODMnSO ;谱带强弱依次为FesOD>Cu/znSOD>MnSOD.经热胁迫处理后,各种SOD同工酶条带亮度均呈现不同程度的增强一减弱的变化趋势,并诱导产生了1条新的Cu/Zn-SOD条带,与此同时MnSOD条带最先消失.由此推测,鸡冠花品种间耐热性差异与其SOD活性相关,与胁迫强度相对应,同时也与Cu/ZnSOD2的诱导产生     

Recombinant Human Superoxide Dismutases: Production and Potential Therapeutical Uses

In many pathological situations, tissue damage is caused by cellular generation of superoxide free radicals (O₂-). These active species are generated during post-ischemic reperfusion of organs, in hyperoxic tissue, during acute and chronic inflammation and during exposure to ionizing radiation. Exogenous superoxide dismutase (SOD) was shown to significantly prevent such damage.

The genes for human cytosolic Cu/ZnSOD and mitochondrial MnSOD were cloned and introduced into an E. coli expression system. The proteins were expressed in high yields and purified to homogeneity, yielding pharmaceutical-grade materials. These enzymes were used in a variety of in vivo animal models for the demonstration of their protective effects against oxidative damage. Comparative pharmacokinetic studies in rats have revealed that the half-life of Cu/ZnSOD was 6–10min., while that of MnSOD was 5–6 hours, thus indicating that MnSOD may be superior to Cu/ZnSOD for the treatment of chronic diseases. Indeed, MnSOD was found to be erective as an anti-inflammatory agent in the rat carrageenan induced paw edema acute inflammation model. Both enzymes were also effective in ameliorating post-irradiation damage in mice exposed to whole-body or localized chest X-ray radiation.     

Superoxide Dismutases of Escherichia coli: Intracellular Localization and Functions

Escherichia coli B contains two superoxide dismutases which differ with respect to their localization within the cell, the nature of their prosthetic metals, their responses to changes in (p)O(2), and their functions. One of these enzymes, which was liberated from the cells by osmotic shock and which was therefore presumed to be localized in the periplasmic space, is an iron-containing superoxide dismutase. The amount of this iron enzyme did not vary in response to changes in (p)O(2) during growth. In contrast, the other superoxide dismutase was not solubilized by osmotic shock, was a mangano-protein, and was found in greater amounts in cells which had been grown at high (p)O(2). E. coli, which had low levels of the iron-enzyme and high levels of the mangano-enzyme, as a consequence of growth in iron-deficient aerated medium, was killed by exposure to an exogenous flux of O(2) (-) which was generated either photochemically or enzymatically. The addition of bovine superoxide dismutase to the suspending medium protected these cells against this stress. On the other hand, E. coli, which had high levels of the iron-enzyme and low levels of the mangano-enzyme, as a consequence of growth in iron-rich anaerobic medium, was resistant to exogeneous O(2) (-). On the basis of these and of previously reported results (4a, Yost, F. J. and I. Fridovich, J. Biol. Chem., 1973, in press), it appears that the iron superoxide dismutase, of the periplasmic space, serves as a defense against exogenous O(2) (-), whereas the mangano-superoxide dismutase, in the matrix of these cells, serves to counter the toxicity of endogenous O(2) (-).     

Differences in mRNA Expression,Protein Content,and Enzyme Activity of Superoxide Dismutases in Type II Pneumocytes of Acute and Chronic Lung Injury

The lung is protected against oxidative stress by a variety of antioxidants and type II pneumocytes seem to play an important role in antioxidant defense. Previous studies have shown that inhalation of NO₂ results in acute and chronic lung injury. How the expression and enzyme activity of antioxidant enzymes are influenced in type II cells of different inflammatory stages has yet not been studied. To elucidate this question, we exposed rats to 10 ppm NO₂ for 3 or 20 days to induce acute or chronic lung injury. From these and air-breathing rats, type II pneumocytes were isolated. The mRNA expression and protein content of CuZnSOD and MnSOD as well as total SOD-specific enzyme activity were determined. For the acute lung injury (3 d NO₂), the expression of CuZnSOD mRNA was significantly increased, while MnSOD expression was significantly reduced after 3 days of NO 2 exposure. For the chronic lung injury (20 d NO₂), CuZnSOD expression was still enhanced, while MnSOD expression was comparable to control. In parallel to CuZnSOD mRNA expression, the protein amount was significantly increased in acute and chronic lung injury however MnSOD protein content exhibited no intergroup differences. Total SOD enzyme activity showed a significant decrease after 3 days of NO₂ exposure and was similar to control after 20 days. We conclude that during acute and chronic lung injury in type II pneumocytes expression and protein synthesis of CuZnSOD and MnSOD are regulated differently.     

Anti-Inflammatory Activity of Superoxide Dismutases: Studies on Adjuvant Induced Polyarthritis in Rats

The anti-arthritic activities of various superoxide dismutases and of liposomal bovine Cu-SOD have been compared in the adjuvant induced Lewis Inbred Rat model. Various approaches, including plethysmometric measurements, red cell sedimentation rates, while cell counts, levels of IgA and IgG immunoglobulins and scoring by visual, radiographic and scintigraphic techniques all concord in a demonstration of different activities for different SODs. The most efficient are liposomal bovine Cu-SOD and E. coli Mn-SOD, a moderate activity being shown by free bovine Cu-SOD. Poor or zero results are obtained with human Mn-SOD, human Cu-SOD or the homologous rat Cu-SOD.     

Anti-Inflammatory Activity of Superoxide Dismutases: Inhibition of Carrageenan Induced Edema in Rats

Eighteen different superoxide dismutases from procaryote, plant, fish, bird and mammalian species have been tested for anti-inflammatory activity in the rat paw pad carrageenan-induced inflammation model Very large differences in activity are observed. Homologous rat Cu-SOD is not active and indeed shows slight pro-inflammatory activity. The different SODs have different iso-electric values, different metal; (Cu, Mn or Fe) at the active centre, different molecular weights and different circulation lifetimes Biological activity is a function of amino acid sequence rather than of such secondary parameters.     

Anti-Inflammatory Activity of Superoxide Dismutases: Inhibition of Carrageenan Induced Edema in Rats

Eighteen different superoxide dismutases from procaryote, plant, fish, bird and mammalian species have been tested for anti-inflammatory activity in the rat paw pad carrageenan-induced inflammation model Very large differences in activity are observed. Homologous rat Cu-SOD is not active and indeed shows slight pro-inflammatory activity. The different SODs have different iso-electric values, different metal; (Cu, Mn or Fe) at the active centre, different molecular weights and different circulation lifetimes Biological activity is a function of amino acid sequence rather than of such secondary parameters.     

Anti-Inflammatory Activity of Superoxide Dismutases: Inhibition of Adriamycin Induced Edema in Rats

Various superoxide dismutases from different sources, containing Cu, Mn or Fe at the active centre, have been examined with respect to anti-inflammatory activity in a model using adriamycin-induced edema in rats. Very large differences in efficiency are observed, the most active being E. coli Mn-SOD and bovine Cu-SOD. TheFe-SOD from E coli is active whereas P. leiognathiFe-SODisnot. Human Mn-SOD shows no significant activity and homologous rat Cu-SOD is totally inactive. Yeast Cu-SOD shows proinflammatory properties. Anti-inflammatory activity is not a function of molecular weight or circulation life-time.     

Comparative Anti-Inflammatory Activity of Different Superoxide Dismutases and Liposomal Sod in Ischemia

Comparison of superoxide dismutases from different sources with respect to biological activity in the rat tourniquet poditis model shows that anti-ischemic activity is very variable although all the enzymes have the same specific enzymic activity. Both bovine Cu-SOD and E. coli Mn-SOD have excellent properties whereas yeast Cu-SOD and the homologous rat Cu-SOD show zero activity. The results confirm earlier demonstrations that (1) “All superoxide dismutases are equal but some are more equal than others”, (2) at the dose levels used (compatible with possible clinical use) homologous enzyme is inefficient and hence human Cu-SOD may not be effective in humans, (3) liposomal encapsulation of bovine Cu-SOD greatly enhances biological efficacity, provides a slow release mechanism of the enzyme and provides a powerful drug for the treatment of ischemic injury.     

Micronutrient Deficiency Influences Plant Growth and Activities of Superoxide Dismutases in Narrow-leafed Lupins

The effect of copper (Cu), zinc (Zn) or manganese (Mn) deficiencyon the growth and activity of superoxide dismutase (SOD) formswas investigated in seedlings of narrow-leafed lupins (LupinusangustifoliusL.). Plants grown without Zn developed Zn deficiencysymptoms 24 d after sowing (DAS), and those grown without Mnshowed Mn deficiency symptoms 31 DAS. However, plants grownwithout Cu did not show visible leaf symptoms. Shoot dry weightwas decreased by Zn and Mn deficiency 24 DAS, and by Cu deficiency31 DAS. Soluble protein concentration was reduced considerablyby Zn deficiency 24 DAS, but was not affected by Cu deficiencyuntil 31 DAS. In contrast, soluble protein concentration inMn-deficient plants was higher than in control plants 31 DAS.Shoot concentration of micronutrients which were not suppliedto plants decreased significantly, with a simultaneous increasein concentration of one or more of the other nutrients analysed.The activities of total SOD, MnSOD and Cu/ZnSOD on a fresh weightbasis declined drastically in -Cu and -Zn plants 24 DAS. Onthe contrary, the activities of total SOD and Cu/ZnSOD on eithera fresh weight or soluble protein basis increased markedly in-Mn plants 24 DAS, and MnSOD activity increased significantlyin these plants 31 DAS. It was concluded that micronutrientdeficiency (Cu, Zn or Mn) altered the activities of SOD formsdepending on the kind and severity of the deficiency stress.Manipulation of the capacity of plants to tolerate oxidativestress may influence their capacity to tolerate micronutrientdeficiency.Copyright 1999 Annals of Botany Company. Copper,Lupinus angustifolius, manganese, deficiency, superoxide dismutase, zinc.     

Auxin-Binding Protein in Etiolated Mung Bean Seedlings: Purification and Properties of Auxin-Bindmg Protein-II

An auxin-binding protein (ABP-II) was purified from the extractof etiolated mung bean seedlings by affinity chromatographyon 2,4-D-linked Sepharose 4B and by gel filtration on Sepharose4B and Sephacryl S-200. The molecular weight was estimated tobe about 190,000 by gel filtration on Sephacryl S-200. ABP-IIgave a single band corresponding to a molecular weight of about48,000 on SDS-polyacrylamide gel electrophoresis. The dissociationconstants of ABP-II for 2,4-D determined by amrnonium sulfateprecipitation and equilibrium dialysis were 9.5?10^–6 Mand 1.1?10^–5 M, respectively. ¹⁴C-2,4-D-binding to ABP-IIwas reversible and inhibited by addition of IAA, naphthalene-1-aceticacid, 2,4,5-trichlorophenoxyacetic acid or p-chlorophenoxyisobutylicacid to the assay mixture. (Received September 5, 1984; Accepted November 5, 1984)     

Identification and Analysis of the Role of Superoxide Dismutases Isoforms in the Pathogenesis of Paracoccidioides spp.

The ability of Paracoccidioides to defend itself against reactive oxygen species (ROS) produced by host effector cells is a prerequisite to survive. To counteract these radicals, Paracoccidioides expresses, among different antioxidant enzymes, superoxide dismutases (SODs). In this study, we identified six SODs isoforms encoded by the Paracoccidioides genome. We determined gene expression levels of representative isolates of the phylogenetic lineages of Paracoccidioides spp. (S1, PS2, PS3 and Pb01-like) using quantitative RT-PCR. Assays were carried out to analyze SOD gene expression of yeast cells, mycelia cells, the mycelia-to-yeast transition and the yeast-to-mycelia germination, as well as under treatment with oxidative agents and during interaction with phagocytic cells. We observed an increased expression of PbSOD1 and PbSOD3 during the transition process, exposure to oxidative agents and interaction with phagocytic cells, suggesting that these proteins could assist in combating the superoxide radicals generated during the host-pathogen interaction. Using PbSOD1 and PbSOD3 knockdown strains we showed these genes are involved in the response of the fungus against host effector cells, particularly the oxidative stress response, and in a mouse model of infection. Protein sequence analysis together with functional analysis of knockdown strains seem to suggest that PbSOD3 expression is linked with a pronounced extracellular activity while PbSOD1 seems more related to intracellular requirements of the fungus. Altogether, our data suggests that P. brasiliensis actively responds to the radicals generated endogenously during metabolism and counteracts the oxidative burst of immune cells by inducing the expression of SOD isoforms.     

Nitrogen Assimilation and Protein Synthesis in Wheat Seedlings as Affected by Mineral Nutrition. II. Micronutrients

Activity of nitrate reductase from Triticum aestivum L. seedlings was decreased by deficiencies of molybdenum, zinc, and chlorine. Nitrate accumulated in molybdenum-deficient seedlings, declined in zinc-deficient seedlings, and was unaffected by the other micronutrient treatments. Glutamic acid dehydrogenase activity was decreased by deficiency of molybdenum, the only nutrient that affected the enzyme. Glutamine synthetase activity was decreased only by copper deficiency, and glutamic-oxaloacetic transaminase was not affected by any micronutrient deficiencies. Incorporation of ¹⁴C-leucine into protein by wheat seedlings was increased by molybdenum deficiency, apparently because of decreased inhibition from endogenous amino acids, and was decreased by copper deficiency. Protein content was not affected significantly by the micronutrient treatments.     

Characteristic Isozyme Spectra of Anionic Peroxidases and Superoxide Dismutases in Callus Cultures of Larix sibirica Ledeb. and Larix gmelinii Rupr. Rupr.

Multiple molecular forms of anionic peroxidase (AP) and superoxide dismutase (SOD) were investigated in the callus lines of Larix sibirica and L. gmelinii. Eight distinct patterns of the AP spectra were discerned among 13 investigated lines. The spectra of SOD molecular forms were similar in all lines under investigation, although the lines were obtained from two Larix species and the calli were of different origin. Fe-containing SOD was for the first time described in the Larix isoenzyme spectrum. The authors conclude that the SOD isozyme spectra in dedifferentiated cells of L. sibirica and L. gmelinii are more stable than the isoperoxidase spectra.     

Understanding the influence of the protein environment on the Mn(II) centers in Superoxide Dismutases using High-Field Electron Paramagnetic Resonance

One of the most puzzling questions of manganese and iron superoxide dismutases (SODs) is what is the basis for their metal-specificity. This review summarizes our findings on the Mn(II) electronic structure of SODs and related synthetic models using high-field high-frequency electron paramagnetic resonance (HFEPR), a technique that is able to achieve a very detailed and quantitative information about the electronic structure of the Mn(II) ions. We have used HFEPR to compare eight different SODs, including iron, manganese and cambialistic proteins. This comparative approach has shown that in spite of their high structural homology each of these groups have specific spectroscopic and biochemical characteristics. This has allowed us to develop a model about how protein and metal interactions influence protein pK, inhibitor binding and the electronic structure of the manganese center. To better appreciate the thermodynamic prerequisites required for metal discriminatory SOD activity and their relationship to HFEPR spectroscopy, we review the work on synthetic model systems that functionally mimic Mn-and FeSOD. Using a single ligand framework, it was possible to obtain metal-discriminatory “activity” as well as variations in the HFEPR spectra that parallel those found in the proteins. Our results give new insights into protein-metal interactions from the perspective of the Mn(II) and new steps towards solving the puzzle of metal-specificity in SODs.     

Superoxide Dismutase from Lens esculenta: Purification and Properties

Superoxide dismutase has been purified to homogeneity from Lens esculenta cotyledons and shoots. The two forms appeared to be identical. The purified enzyme contained two electrophoretically distinct bands. It contained two ions of Cu and two ions of Zn. Gel filtration experiments indicate a molecular weight of about 33,000. The spectrum of ultraviolet and visible regions and electron paramagnetic resonance were similar to those of Cu-Zn mammalian superoxide dismutase.     

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.     

Anti-Inflammatory Activity of Superoxide Dismutases: Comparison of Enzymes from Different Sources in Different Models in Rats: Mechanism of Action

Comparison of the anti-inflammatory properties of superoxide dismutases from different sources using different models (carrageenan and adriamycin induced inflammation, adjuvant-induced arthritis) in rats shows a very wide range of activity from extremely good to zero. Neither circulating life time nor intracellular penetration are of importance. The mechanism of biological activity of the SODs is discussed in detail, and binding to an interphase situation on the outer cell surface is postulated. As a consequence of these various considerations it is predicted that clinical application of human Cu-SOD in humans may well be much less spectacular than is commonly assumed, and indeed may be somewhat disappointing.