Isoenzymes of cuprozinc superoxide dismutase from Pisum sativum

Two cyanide-sensitive and organic solvent-inactivated superoxide dismutase isoenzymes were purified from pea leaves, Pisum sativum, cv Thomas Laxto     

Photochemical processes observed during the reaction of superoxide reductase from Desulfoarculus baarsii with superoxide: Re-evaluation of the reaction mechanism

Superoxide reductase SOR is an enzyme involved in superoxide detoxification in some microorganisms. Its active site consists of a non-heme ferrous center in an unusual [Fe(NHis)₄ (SCys)₁] square pyramidal pentacoordination that efficiently reduces superoxide into hydrogen peroxide. In previous works, the reaction mechanism of the SOR from Desulfoarculus baarsii enzyme, studied by pulse radiolysis, was shown to involve the formation of two reaction intermediates T1 and T2. However, the absorption spectrum of T2 was reported with an unusual sharp band at 625 nm, very different from that reported for other SORs. In this work, we show that the sharp band at 625 nm observed by pulse radiolysis reflects the presence of photochemical processes that occurs at the level of the transient species formed during the reaction of SOR with superoxide. These processes do not change the stoichiometry of the global reaction. These data highlight remarkable photochemical properties for these reaction intermediates, not previously suspected for iron-peroxide species formed in the SOR active site. We have reinvestigated the reaction mechanism of the SOR from D. baarsii by pulse radiolysis in the absence of these photochemical processes. The T1 and T2 intermediates now appear to have absorption spectra similar to those reported for the Archaeoglobus fulgidus SOR enzymes. Although for some enzymes of the family only one transient was reported, on the whole, the reaction mechanisms of the different SORs studied so far seem very similar, which is in agreement with the strong sequence and structure homologies of their active sites.     

Structural Analysis of Peroxide-Soaked MnSOD Crystals Reveals Side-On Binding of Peroxide to Active-Site Manganese

The superoxide dismutase (SOD) enzymes are important antioxidant agents that protect cells from reactive oxygen species. The SOD family is responsible for catalyzing the disproportionation of superoxide radical to oxygen and hydrogen peroxide. Manganese- and iron-containing SOD exhibit product inhibition whereas Cu/ZnSOD does not. Here, we report the crystal structure of Escherichia coli MnSOD with hydrogen peroxide cryotrapped in the active site. Crystallographic refinement to 1.55 Å and close inspection revealed electron density for hydrogen peroxide in three of the four active sites in the asymmetric unit. The hydrogen peroxide molecules are in the position opposite His26 that is normally assumed by water in the trigonal bipyramidal resting state of the enzyme. Hydrogen peroxide is present in active sites B, C, and D and is side-on coordinated to the active-site manganese. In chains B and D, the peroxide is oriented in the plane formed by manganese and ligands Asp167 and His26. In chain C, the peroxide is bound, making a 70° angle to the plane. Comparison of the peroxide-bound active site with the hydroxide-bound octahedral form shows a shifting of residue Tyr34 towards the active site when peroxide is bound. Comparison with peroxide-soaked Cu/ZnSOD indicates end-on binding of peroxide when the SOD does not exhibit inhibition by peroxide and side-on binding of peroxide in the product-inhibited state of MnSOD.     

Superoxide dismutase isoenzymes in bovine and human milk

The presence of superoxide dismutase in bovine and human milk was investigated by ultrafiltration, gel filtration, and isoelectric focusing. Conclusive evidence for the presence of this enzyme in both milks is presented. The molecular weight of the enzyme was estimated by gel filtration on Sephadex G-100 to be 30,000, which is consistent with reported values for the copper, zinc form of superoxide dismutase. In addition, enzyme activity was inhibited by cyanide, thus eliminating the possibility that the enzyme was present in the manganese form. Several isoenzymes were detected by isoelectric focusing in polyacrylamide gel, and the isoenzyme pattern in bovine milk was the same as that found for bovine plasma, suggesting that milk superoxide dismutase originates from plasma. It may be that the presence of copper, zinc superoxide dismutase in milk is important for the maintenance of its oxidative stability.     

综述与专论: Functional Superoxide Dismutase Mimics Become Diverse: From Simple Compounds on Prebiotic Earth to Nanozymes

Inorganic solids with enzyme-like activity are promising to overcome many restrictions of native enzymes in application. Especially attractive are nanoparticles with superoxide dismutase (SOD) activity, due to their ability to reduce the damaging properties of reactive oxygen species within cellsand organism. This review discusses the necessary requirements for nanoparticles with SOD activity and reveals a close relationship between catalysis on prebiotic earth and the recent SOD mimics. Furthermore, the review aims to highlight the progress in the development of SOD mimicking nanoparticles. We give a broad overview of nanoparticles with SOD activity, based on their materialmake-up, to underline their increasing diversity.     

Free Radical Production by Azomethine H: Effects on Pancreatic and Hepatic Tissues

The antimalarial properties of azomethine H represent the basis for its use as a chemotherapeutic agent. This work was carried out in order to verify the biological side effects of azomethine H and to clarify the contribution of reactive oxygen species (ROS) in this process. It was shown that azomethine H increased serum activities of amylase, alanine transaminase (ALT) and the TBARS concentrations, in rats. No changes were observed in glutathione peroxidase and catalase activities. The drug-induced tissue damage might be due to superoxide radicals (O₂), since Cu-Zn superoxide dis-mutase activities were increased by azomethine H treatment. This study allows tentative conclusions to be drawn regarding which reactive oxygen metabolites play a role in azomethine H activity. We concluded that (O₂) maybe produced as a mediator of azomethine H action.     

Conversion of the metal-specific activity of Escherichia coli Mn-SOD by site-directed mutagenesis of Gly165Thr

Glycine 165, which is located near the active site metal, is mostly conserved in aligned amino acid sequences of manganese-containing superoxide dismutase (Mn-SOD) proteins, but is substituted to threonine in most iron-containing SODs (Fe-SODs). Because threonine 165 is located between Trp128 and Trp130, and Trp128 is one of the metal-surrounding aromatic amino acids, the conversion of this amino acid may affect the metal-specific activity of Escherichia coli Mn-SOD. In order to clarify this possibility, we prepared a mutant of E. coli Mn-SOD with the replacement of Gly165 by Thr. The ratio of the specific activities of Mn- to Fe-reconstituted enzyme increased from 0.006 in the wild-type to 0.044 in the mutant SOD; therefore, the metal-specific SOD was converted to a metal-tolerant SOD. The visible absorption spectra of the Fe- and Mn-reconstituted mutant SODs indicated the loss of Mn-SOD character. It was concluded that Gly at position 165 plays a catalytic role in maintaining the integrity of the metal specificity of Mn-SOD.     

The challenges of using fluorescent probes to detect and quantify specific reactive oxygen species in living cells

Background

Small molecule fluorescent probes are vital tools for monitoring reactive oxygen species in cells.

Scope of review

The types of probe available, the extent to which they are specific or quantitative and complications in interpreting results are discussed.

Major conclusions

Most commonly used probes (e.g. dihydrodichlorofluorescein, dihydrorhodamine) have some value in providing information on changes to the redox environment of the cell, but they are not specific for any one oxidant and the response is affected by numerous chemical interactions and not just increased oxidant generation. These probes generate the fluorescent end product by a free radical mechanism, and to react with hydrogen peroxide they require a metal catalyst. Probe radicals can react with oxygen, superoxide, and various antioxidant molecules, all of which influence the signal. Newer generation probes such as boronates act by a different mechanism in which nucleophilic attack by the oxidant on a blocking group releases masked fluorescence. Boronates react with hydrogen peroxide, peroxynitrite, hypochlorous acid and in some cases superoxide, so are selective but not specific. They react with hydrogen peroxide very slowly, and kinetic considerations raise questions about how the reaction could occur in cells.

General significance

Data from oxidant-sensitive fluorescent probes can provide some information on cellular redox activity but is widely misinterpreted. Recently developed non-redox probes show promise but are not generally available and more information on specificity and cellular reactions is needed. We do not yet have probes that can quantify cellular production of specific oxidants. This article is part of a Special Issue entitled Current methods to study reactive oxygen species - pros and cons and biophysics of membrane proteins. Guest Editor: Christine Winterbourn.     

A proposal for the metal geometry in yeast superoxide dismutase based on results from EXAFS spectroscopy

Extended x-ray absorption fine structure (EXAFS) spectra have been recorded at the Cu edge and Zn edge in native yeast superoxide dismutase and at the Cu edge and Cd edge in the yeast superoxide dismutase derivative, where Zn has been substituted with Cd. Two different metal ligand distances in the range 1.9-2.0 A and 2.3-2.4 are determined for the Cu and Zn metals. For Cd in the Zn site two different metal ligand distances about 2.2 A and 2.6 A, respectively, were found. The striking feature is the similarity between the amplitude and radii determined for both the Cu and Zn sites. The increased distances for Cd can be explained by the increased ionic radius of Cd relative to Cu and Zn. Based on these EXAFS results and other relevant knowledge about the metal geometries, we propose that histidine 61 (63) positioned between the Cu and Zn metals are in one subunit bound to Zn and in the other to Cu. This model explains the recently observed difference between the two metal sites in each subunit.     

小麦对赤霉病抗性不同品种的SOD活性

本研究对9个赤霉病抗性不同小麦品种采用赤霉病菌分生孢子悬浮液以单花针注法进行了田间和温室抗病性鉴定;测定了各品种的胚性愈伤组织和盛花期麦穗分别经赤霉病菌毒素和分生孢子接种前后SOD活性的变化。结果表明,各品种SOD活性与其对赤霉病抗性呈极显著的正相关。接种后寄主的SOD活性均有提高,抗病品种比感病品种提高幅度大,且有新的同工酶带出现。抗病品种望水白比感病品种Alondra“S”多出两条SOD同工酶谱带。SOD在小麦抗赤霉病上可能起积极作用,其活性有可能作为鉴定小麦抗赤霉病的一种生理生化指标。     

The requirement for ferric in the initiation of lipid peroxidation by chelated ferrous iron

When certain ferrous chelates are added to lipid, peroxidation of the lipid occurs following a short lag. This suggests that a product of ferrous autoxidation is required to initiate lipid peroxidation. This autoxidation product is apparently ferric iron, rather than the oxygen radicals which also result from ferrous autoxidation. Studies with oxy-radical scavengers and catalase suggest that $\text{O}{}_2{}^{\mathrm{<mtext>?</mtext>}}$ H₂O₂, or the ·OH are not involved in the initiation reactions, therefore, we propose that a ferrous-dioxygen-ferric chelate complex may be the initiating species.     

Superoxide dismutase for therapeutic use: Clinical experience,dead ends and hopes

Summary The clinical trials performed with bovine superoxide dismutase (SOD) are reviewed. SOD, applied intraarticularly at a dosage of 2–16 mg, proved to be effective in osteoarthritis of the knee joint in three placebo-controlled and one steroid-controlled double-blind trials. Its efficacy in other inflammatory joint disorders is documented by uncontrolled trials. Similarly, some controlled and many open studies support the efficacy of locally injected SOD in periarticular inflammation. Systemic treatment of rheumatoid arthritis by SOD at the dosages indicated yielded disappointing results. Well documented, though open uncontrolled studies demonstrated beneficial effects of locally administered SOD in radiation cystitis, interstitial cystitis and Peyronie's disease. Tolerance is good, but allergic reactions at low incidence have to be anticipated. Human SOD derived from recombinant microorganisms is being developed to explore its therapeutic potential particularly in ischemia-reperfusion damage, adult respiratory distress or similar conditions.     

AtCCS is a functional homolog of the yeast copper chaperone Ccs1/Lys7

In plant chloroplasts two superoxide dismutase (SOD) activities occur, FeSOD and Cu/ZnSOD, with reciprocal regulation in response to copper availability. This system presents a unique model to study the regulation of metal-cofactor delivery to an organelle. The Arabidopsis thaliana gene AtCCS encodes a functional homolog to yeast Ccs1p/Lys7p, a copper chaperone for SOD. The AtCCS protein was localized to chloroplasts where it may supply copper to the stromal Cu/ZnSOD. AtCCS mRNA expression levels are upregulated in response to Cu-feeding and senescence. We propose that AtCCS expression is regulated to allow the most optimal use of Cu for photosynthesis.     

蚯蚓体内超氧化物歧化酶分析

蚯蚓体内SOD含量甚高,35℃饲养的蚯蚓其SOD比活最高,因此,纯化前将蚯蚓在35℃养殖4周以上.采用硫酸铵分级沉淀和柱层析的方法,从蚯蚓体内分离得到纯的铜锌超氧化物歧化酶.每100g组织得到SOD制品总活力为17,190 U,比活7995 U/mg,回收率为35%.该酶呈淡蓝绿色,最大紫外吸收波长为270nm.该酶分子量为33,000,亚基分子量为16,500.该酶亚基含156个氨基酸残基,不含酪氨酸.N-末端为丙氨酸,等电聚焦为三条谱带,等电点分别为5.30 、5.59和6.22.     

The reaction of nitro-blue tetrazolium with d,l-L-tetrahydrofolate: The effect of pH,oxygen, formaldehyde and palladium(II)

d,l-L-Tetrahydrofolate (d,l-L-FH₄) transfers two electrons to nitro-blue tetrazolium (NBT) in oxygen-free buffers to form the highly coloured nitro-blue formazan and oxidized folate. Both the rate and extent of this reaction are affected by the pH, the nature of the buffer and the oxygen concentration. Inhibition of both the rate and extent of this reaction in air-saturated solutions by superoxide dismutase (SOD) indicates that the superoxide anion is an intermediate in the reaction so that formazan can be produced by both superoxide independent and superoxide dependent routes in air-saturated solutions.In oxygen-free solutions several lines of evidence can be interpreted to mean that the reduced pteridine ring of tetrahydrofolate is the electron donor in the reaction with NBT. Ionization of the amide hydrogen of the pteridine ring and subsequent increase in electron density of that ring might explain the large increases observed in the rate and extent of the reaction of tetrahydrofolate with NBT as the pH increases. Formaldehyde reacts non-enzymatically with tetrahydrofolate to form a methylene bridge between nitrogens 5 and 10 of methylenetetrahydrofolate. This molecule is much less reactive with nitro-blue tetrazolium than tetrahydrofolate. Complexes formed between tetrahydrofolate and palladium(II) ions are also less reactive with NBT than the tetrahydrofolate alone. This result provides added evidence that palladium(II) ions interact with tetrahydrofolate at the nitrogen 5, nitrogen 10 site of the molecule.     

Regulation of superoxide dismutase synthesis in Candida albicans

The synthesis of superoxide dismutase [SOD: EC 1.15.1.1] in response to various cultural conditions was examined in Candida albicans, an opportunistic yeast which causes candidiasis in immunosuppressed patients. SOD plays an important role in protecting cells from the oxidative damage of superoxide radicals. Maximum SOD activity was found after 72 hrs of yeast growth. The optimum pH and temperature for the SOD activity were 7 and 40 °, respectively. The major SOD activity was found in the cytosol fraction and the level of extracellular SOD was very low. The enzyme was stimulated to varying degrees by cholic acid, procaine and tocopherol. On the basis of inhibitor studies and other enzyme properties, the isolated enzyme from C. albicans is identified as copper and zinc superoxide dismutase. This revised version was published online in June 2006 with corrections to the Cover Date.     

Formation of N-nitrosodiphenylamine from 1,1-diphenylhydrazine by rat liver microsomal preparations

The present study provides the first evidence for in vitro metabolic conversion of a 1,1-disubstituted hydrazine to the corresponding nitrosamine. The study shows that superoxide radical which is generated by NADPH-cytochrome c reductase is involved in the oxidation of 1,1-diphenylhydrazine to N-nitrosodiphenylamine catalyzed by rat liver microsomes.     

少孢根霉发酵生产超氧化物歧化酶的研究

本文研究了少孢根霉RT－3固态发酵生产SOD的条件。结果表明该菌发酵培养基的优化组成为：大豆,麸皮5％,硫酸氢0．3％,磷酸二氢钠0．03％,硫酸铜0,04％。培养基经代化后,每克培养物SOD酶活提高53％。适宜的乳酸加入量为1％。吐温－80、醋酸钠和抗坏血酸对菌体产酶没有作用。     

Influence of acute heat stress on the development of GABAergic neurons in HPA-axies of mouse embryos

The damaging effects of acute heat stress in pregnant mice is well known, however, very little is known about the impact of heat on embryonic neurodevelopment and its dependence on the dam's physiological response to the stress. To study the changes in GABAergic neurons expression on the hypothalamo-pituitary-adrenocortical axis (HPA-axis), superoxide dismutase (SOD) activities and malondialdehyde (MDA) levels were measured in mouse embryos on E13-17 following acute, maternal heat stress. Blood samples and amniotic fluid from pregnant mice, and homogenates of whole embryos and embryo brains were collected for SOD and MDA analyses. SOD and MDA activities were measured in embryo and the sections by staining with anti-γ-aminobutyric acid-A- α1 receptor (GABAA receptor- α1), anti-γ-aminobutyric acid-B-1 receptor (GABAB receptor-R1) and anti-glutamate decarboxylase-65(GAD-65) antibodies. After the pregnant mice underwent acute heat stress on E13, the embryonic GABAergic neurons and GABA receptor expression were triggered immediately as a result of induction of the HPA-axis. This expression recovered to normal levels consistent with the control groups. However, the expression of the GABAA receptor in embryonic adrenal gland decreased continually. The SOD activity decreased in the embryonic brain and increased in the amniotic fluid after the heat stress, whereas the MDA levels increased in the maternal plasma only. Therefore, the GABAergic neurons in the developing HPA-axis of the embryos are susceptible to heat stress and the enhancement of SOD activities in the amniotic fluid might be a protective mechanism.