Author: "Fridovich I" / Journal: journal of biological chemistry - Searchworks@Jio Institute Digital Library Search Results

Author: Liochev, S I and Fridovich, I
Abstract: The copper- and zinc-containing superoxide dismutase can catalyze the oxidation of ferrocyanide by O(2) as well as the reduction of ferricyanide by O(2). Thus, it can act as a superoxide dismutase (SOD), a superoxide reductase (SOR), and a superoxide oxidase (SOO). The human manganese-containing SOD does not exert SOR or SOO activities with ferrocyanide or ferricyanide as the redox partners. It is possible that some biological reductants can take the place of ferrocyanide and can also interact with human manganese-containing superoxide dismutase, thus making the SOR activity a reality for both SODs. The consequences of this possibility vis à vis H(2)O(2) production, the overproduction of SODs, and the role of copper- and zinc-containing superoxide dismutase mutations in causing familial amyotrophic lateral sclerosis are discussed, as well as the likelihood that the biologically effective SOD mimics, as described to date, actually function as SORs.
Published: 2000
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16. Why superoxide imposes an aromatic amino acid auxotrophy on Escherichia coli. The transketolase connection.

Author: Benov, L and Fridovich, I
Abstract: The lack of superoxide dismutase and the consequent elevation of [O2-] imposes, on Escherichia coli, auxotrophies for branched chain, sulfur-containing, and aromatic amino acids. The former two classes of auxotrophies have already been explained, whereas the third is explained herein. Thus O2- is shown to interfere with the production of erythrose-4-phosphate, which is essential for the first step of the aromatic biosynthetic pathway. It does so by oxidizing the 1, 2-dihydroxyethyl thiamine pyrophosphate intermediate of transketolase and inactivating this enzyme.
Published: 1999

17. Growth in iron-enriched medium partially compensates Escherichia coli for the lack of manganese and iron superoxide dismutase.

Author: Benov, L and Fridovich, I
Abstract: Enrichment of the growth medium with iron partially relieves the phenotypic deficits imposed on Escherichia coli by lack of both manganese and iron superoxide dismutases. Thus iron supplementation increased the aerobic growth rate, decreased the leakage of sulfite, and diminished sensitivity toward paraquat. Iron supplementation increased the activities of several [4Fe-4S]-containing dehydratases, and this was seen even in the presence of 50 microg/ml of rifampicin, an amount which completely inhibited growth. Assessing the O-2 scavenging activity by means of lucigenin luminescence indicated that the iron-enriched sodAsodB cells had gained some means of eliminating O-2, which was not detectable as superoxide dismutase activity in cell extracts. It is noteworthy that iron-enriched cells were not more sensitive toward the lethality of H2O2 despite having the usual amount of catalase activity. This indicates that iron taken into the cells from the medium is not available for Fenton chemistry, but is available for reconstitution of iron-sulfur clusters. We suppose that oxidation of the [4Fe-4S] clusters of dehydratases by O-2 and their subsequent reductive reconstitution provides a mechanism for scavenging O-2 and that speeding this reductive reconstitution by iron enrichment both spared other targets from O-2 attack and maintained adequate levels of these enzymes to meet the metabolic needs of the cells.
Published: 1998

18. Purification of the o-dianisidine peroxidase from Escherichia coli B. Physicochemical characterization and analysis of its dual catalatic and peroxidatic activities.

Author: Claiborne, A and Fridovich, I
Abstract: Extracts of aerobically grown Escherichia coli B exhibit both catalase and dianisidine peroxidase activities. Polyacrylamide gel electrophoresis demonstrates two distinct catalases which have been designated hydroperoxidases I and II (HP-I and HP-II) in order of increasing anodic mobility. HP-I has been purified to essential homogeneity and found to be composed of four subunits of equal size. Its molecular weight is 337,000, and it contains two molecules of protoheme IX per tetramer. Its amino acid composition is unusual, for so large a protein, in lacking half-cystine. HP-I is a very efficient catalase with an activity optimum at pH 7.5, a Km for H2O2 of 3.9 mM, and a turnover number of 9.8 x 10(5) per min. It is also a broad specificity peroxidase capable of acting upon dianisidine, guaiacol, p-phenylenediamine, and pyrogallol. Dianisidine acted as a powerful reversible inhibitor of the catalatic activity of HP-I and as a suicide substrate when HP-I functioned in its peroxidatic mode.
Published: 1979
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19. Superoxide dependence of the toxicity of short chain sugars.

Author: Benov, L and Fridovich, I
Abstract: Erythrose inhibited the growth of a sodA sodB strain of Escherichia coli under aerobiosis; but did not inhibit anaerobic growth of the sodA sodB strain, or the aerobic growth of the superoxide dismutase (SOD)-competent parental strain. A SOD mimic protected the sodA sodB strain against the toxicity of erythrose as did the carbonyl-blocking reagents hydrazine and aminoguanidine. Three carbon sugars, such as glyceraldehyde and dihydroxy acetone, and the two carbon sugar glycolaldehyde, were similarly toxic in an O-2-dependent manner. An unidentified dialyzable component in E. coli extract augmented the oxidation of short chain sugars, and this was partially inhibitable by SOD. The toxicity of the short chain sugars appears to be because of an O-2-dependent oxidation to alpha, beta-dicarbonyl compounds. In keeping with this view was the O-2-independent toxicity of methylglyoxal.
Published: 1998

20. Electrostatic interactions in the reaction mechanism of bovine erythrocyte superoxide dismutase.

Author: Cudd, A and Fridovich, I
Abstract: The activity of the copper- and zinc-containing superoxide dismutase decreased with increasing ionic strength. Modification of lysine residues by acetylation or succinylation inverted the effect of increasing ionic strength, whereas modification of arginine with phenylglyoxal did not. These results were noted in both photochemical and pulse-radiolysis assays. It appears that interaction of O2- with the anionic enzyme is assisted by the positive charge on lysine residues, presumably those close to the active site. By the criterion of responsiveness to ionic strength, the arginine residue close to the active site does not appear to provide electrostatic facilitation to the catalytic process. Elimination of the charge on epsilon-amino groups by raising the pH suppressed activity to the same extent as did elimination of these charges by acetylation. Activity was similarly suppressed to the same extent by covalent modification or by ionization of arginine residues, indicating that the positive charge on arginine is important for the catalytic process even though its effect is not responsive to changes in the ionic strength of the solution.
Published: 1982
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21. Superoxide dismutases

Author: Fridovich, I
Published: 1989
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22. Superoxide radical inhibits catalase.

Author: Kono, Y and Fridovich, I
Abstract: Catalase was inhibited by a flux of O2- generated in situ by the aerobic xanthine oxidase reaction. Two distinct types of inhibition could be distinguished. One of these was rapidly established and could be as rapidly reversed by the addition of superoxide dismutase. The second developed slowly and was reversed by ethanol, but not by superoxide dismutase. The rapid inhibition was probably due to conversion of catalase to the ferrooxy state (compound III), while the slow inhibition was due to conversion to the ferryl state (compound II). Since neither compound III nor compound II occurs in the catalatic reaction pathway, they are inactive. This inhibition of catalase by O2- provides the basis for a synergism between superoxide dismutase and catalase. Such synergisms have been observed in vitro and may be significant in vivo.
Published: 1982
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23. Oxygen toxicity in Streptococcus sanguis. The relative importance of superoxide and hydroxyl radicals.

Author: DiGuiseppi, J and Fridovich, I
Abstract: Streptococcus sanguis, whose growth appears to be independent of the availability of iron, makes no hemes, contains neither catalase nor peroxidase, and can accumulate millimolar concentration levels of H2O2 during aerobic growth. It possesses a single manganese-containing superoxide dismutase whose concentration can be varied over a 50-100-fold range by manipulating the availability of oxygen during growth. Cell extracts contain a soluble NADH-plumbagin diaphorase which mediates O2- production in vitro and presumably also in vivo. Plumbagin increased oxygen consumption by S. sanguis and imposed an oxygen-dependent toxicity. Cells grown aerobically and containing elevated levels of superoxide dismutase were resistant to this toxicity. Dimethyl sulfoxide, which was shown to permeate S. sanguis freely, was used as an indicating scavenger of OH. An in vitro enzymic source of O2- plus H2O2 generated formaldehyde from dimethyl sulfoxide, an indication of OH. production. Either superoxide dismutase or catalase inhibited this OH. production and iron salts augmented it. Intact, aerobic cells of S. sanguis also gave evidence of OH. production, in the presence of plumbagin, but all of it appeared to be generated outside the cells. In addition, 0.5 M dimethyl sulfoxide did not diminish the oxygen-dependent toxicity of plumbagin. We conclude that, in S. sanguis, O2- can exert a toxic effect independent of the production of OH..
Published: 1982
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24. alpha, beta-Dihydroxyisovalerate dehydratase. A superoxide-sensitive enzyme.

Author: Kuo, C.F., Mashino, T., and Fridovich, I.
Abstract: Increasing the intracellular flux of O-2 by incubating aerobic Escherichia coli with paraquat or plumbagin markedly lowered the alpha, beta-dihydroxyisovalerate dehydratase activity detectable in extracts from these cells. This effect was not seen in the absence of dioxygen and was exacerbated by inhibiting protein biosynthesis with chloramphenicol. These effects of paraquat and of plumbagin were both time- and concentration-dependent. Transfer of E. coli from aerobic to anaerobic conditions caused a rebound of the dehydratase activity, in the continued presence of paraquat and of chloramphenicol, indicating the presence of a mechanism for reactivating this enzyme. The instability of the dehydratase activity in cell extracts was exacerbated by selective removal of superoxide dismutase, but not of catalase, by immunoprecipitation. Addition of exogenous superoxide dismutase reversed the effect of immunoprecipitation; whereas catalase or inactive superoxide dismutase were ineffective. We conclude that the dehydratase is inactivated by O-2. This could account for the bacteriostatic effects of dioxygen and of paraquat.
Published: 1987
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25. Controls on the biosynthesis of the manganese-containing superoxide dismutase of Escherichia coli. Effects of thiols.

Author: Gardner, P R and Fridovich, I
Abstract: In vitro synthesis of Escherichia coli manganese-containing superoxide dismutase, directed by the plasmid pDT1-5, has been achieved. The Mn superoxide dismutase polypeptide was identified by electrophoresis on polyacrylamide gels, immunoprecipitation, and the competitive immunoprecipitation effect of pure, active E. coli Mn superoxide dismutase. Dithiothreitol and glutathione, but not cysteine, suppressed in vitro synthesis of Mn superoxide dismutase. The parallel syntheses of beta-lactamase and of another unidentified polypeptide were not suppressed by thiols. In vitro transcription of the E. coli Mn superoxide dismutase gene was similarly suppressed by glutathione, dithiothreitol, and beta-mercaptoethanol; but not by L-cysteine or thioglycolate. Compounds, such as diamide, 1-chloro-2,4-dinitrobenzene, potassium ferricyanide, and methylene blue, which are expected to deplete intracellular glutathione, caused the induction of Mn superoxide dismutase in anaerobic E. coli.
Published: 1987
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26. Stimulation of the activity of horseradish peroxidase by nitrogenous compounds.

Author: Kuo, C F and Fridovich, I
Abstract: A variety of nitrogenous compounds broaden the activity versus pH profile for the peroxidation of dianisidine catalyzed by horseradish peroxidase (HRP), but not by myeloperoxidase, chloroperoxidase, Escherichia coli hydroperoxidase I, methemoglobin, or microperoxidases. The peroxidation of dianisidine catalyzed by cytochrome c peroxidase was affected by the nitrogenous compounds, but to a lesser extent than was the action of HRP. The peroxidations of a variety of phenols by HRP exhibited broad activity versus pH profiles and were unaffected by the nitrogenous compounds. The energy of activation for the peroxidation of dianisidine by HRP was unaffected by changes of pH in the range 6.5-8.5 and was unchanged by the presence of the nitrogenous compounds. The nitrogenous compounds markedly increased Vm for the peroxidation of dianisidine by HRP, but did not change the slope of Lineweaver-Burk plots of kinetic data. These results are accommodated by a mechanism in which nitrogenous compounds hydrogen-bond to the distal histidine of HRP and in so doing raise its pK alpha. Since the acid form of the distal histidine is thought to facilitate peroxidations catalyzed by HRP by hydrogen bonding to the ferryl oxygen of compound II, raising its pK alpha broadens the activity versus pH profile for the peroxidation of anilino substrates, such as dianisidine. We propose that phenolic substrates hydrogen-bond directly to the ferryl oxygen, thus displacing the distal histidine and eliminating the possibility of being influenced by nitrogenous compounds.
Published: 1988
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27. Inductions of superoxide dismutases in Escherichia coli under anaerobic conditions. Accumulation of an inactive form of the manganese enzyme.

Author: Privalle, C T and Fridovich, I
Abstract: Escherichia coli growing anaerobically respond to NO3- with a 3-fold induction of the iron-containing superoxide dismutase. Mutants lacking nitrate reductase do not show this response. Anaerobically grown cells also contain an inactive form of the manganese-containing superoxide dismutase (MnSOD) which can be activated by addition of Mn(II) salts in the presence of acidic guanidinium chloride, followed by dialysis against neutral buffer. Direct addition of Mn(II) to a neutral solution of the inactive MnSOD does not impart activity. This inactive MnSOD thus behaves as would the apoenzyme or the enzyme bearing a metal other than Mn(II) at its active sites. Terminal electron acceptors, such as NO3- or trimethylamine N-oxide, increase the amount of inactive MnSOD produced by anaerobic E. coli. Paraquat, which is itself ineffective in this regard, markedly augments the effect of these terminal electron acceptors. It appears that flow of electrons to sinks such as NO3- or trimethylamine N-oxide, facilitated by paraquat, is sufficient to elicit biosynthesis of the MnSOD protein and that O2- is not needed for this process. Yet, oxygenation and concomitant O2- production do appear important for the insertion of manganese into the growing MnSOD polypeptide, possibly because O-2 oxidizes Mn(II) to Mn(III), and the latter is the valence state most effective in combining with the apoenzyme.
Published: 1988
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28. A hybrid superoxide dismutase containing both functional iron and manganese.

Author: Clare, D A, Blum, J, and Fridovich, I
Abstract: A hybrid superoxide dismutase containing functional Mn and Fe has been isolated from Escherichia coli. Streptomycin, which binds tightly to both the Mn- and the Fe-containing superoxide dismutases, had the expected effect on the electrophoretic and chromatographic behavior of the hybrid. Treatment of the hybrid with H2O2, which selectively inactivates the Fe-containing enzyme, resulted in partial inactivation accompanied by a resegregation of subunits, with the formation of active Mn-enzyme and inactive Fe-enzyme. A similar resegregation of subunits was observed when the hybrid was exposed to 2.5 M guanidinium chloride. Hybrids containing Mn or Fe could be generated in vitro by mixing the Mn-enzyme with the Fe-enzyme, removing metals with 8-hydroxyquinoline in the presence of 2.5 M guanidinium chloride, and then dialyzing against Mn(II) or Fe(II) salts. Ten per cent of the activity of the Fe-superoxide dismutases is resistant to H2O2, which correlates with its content of Mn. Since the activity remaining after exhaustive treatment with H2O2 exhibited the electrophoretic mobility of the Fe-enzyme, we concluded that some of the active sites of the Fe-enzyme were actually occupied by Mn. It should be noted, however, that for purposes of metal reconstitution experiments, a definite specificity was demonstrated. The Mn-enzyme was reconstituted with Mn(II), whereas the Fe-enzyme activity was recovered using only Fe(II). We propose that the Fe-superoxide dismutase may be heterogeneous and that 10% of its activity is actually due to a Mn-containing variant with the same electrophoretic mobility. Only the apohybrid enzyme regained enzymatic activity using both Mn(II) and Fe(II).
Published: 1984
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29. Anaerobic induction of ProMn-superoxide dismutase in Escherichia coli

Author: Privalle, C T, Beyer, W F, and Fridovich, I
Abstract: Escherichia coligrowing anaerobically respond to NO3−plus PQ2+with a 20–30-fold induction of an inactive form of the manganese-containing superoxide dismutase (MnSOD). Mutants lacking a functional nitrate reductase fail to show this response. This inactive enzyme can be activated by addition of Mn(II) salts to cell extracts in the presence of acidic guanidinium chloride, followed by dialysis against neutral buffer. Direct addition of Mn(II) to cell extracts does not result in activation. However, addition of Mn(II) to purified apo-MnSOD results in partial activation. Inactive, reconstitutable MnSOD is induced 13-fold within 15 min of exposure to NO3−plus PQ2+. Western blot analysis revealed a 15-fold increase in immunoreactive MnSOD under these conditions, suggestive of de novosynthesis of this protein. A strain of E. colibearing a multicopy plasmid carrying the MnSOD gene (sodA) overproduces inactive MnSOD 19-fold compared to the parent strain under anaerobic conditions. Strains of E. coliwith an inactivating insertion in the sodA gene do not induce inactive, reconstitutable MnSOD in response to NO3−plus PQ2+and lack the immunoreactive MnSOD band. These results, in toto, suggest that the inactive protein synthesized under anaerobic conditions in the presence of NO3−plus PQ2+, acting as an electron sink, is a product of the sodA gene and is devoid of activity due to occupation of the manganese site by another metal.
Published: 1989
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30. Examination of the role of arginine-143 in the human copper and zinc superoxide dismutase by site-specific mutagenesis.

Author: Beyer, W F, Fridovich, I, Mullenbach, G T, and Hallewell, R
Abstract: The active site arginine-143 of human Cu, Zn superoxide dismutase has been replaced by lysine or by isoleucine. The mutant proteins were expressed at high levels in yeast, purified, and the amino acid substitution explored through the use of group specific reagents. The specific activities of these enzymes, measured by the xanthine oxidase/cytochrome c method and by using dry weight determination to establish protein concentration, were: native enzyme, 6570 units/mg; Lys-substituted enzyme, 2840 units/mg, Ile-substituted enzyme, 708 units/mg. The active site arginine thus plays an important, but not an essential, role in the catalytic process.
Published: 1987
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31. The ortho effect makes manganese(III) meso-tetrakis(N-methylpyridinium-2-yl)porphyrin a powerful and potentially useful superoxide dismutase mimic.

Author: Batinić-Haberle, I, Benov, L, Spasojević, I, and Fridovich, I
Abstract: The ortho, meta, and para isomers of manganese(III) 5,10,15, 20-tetrakis(N-methylpyridyl)porphyrin, MnTM-2-PyP5+, MnTM-3-PyP5+, and MnTM-4-PyP5+, respectively, were analyzed in terms of their superoxide dismutase (SOD) activity in vitro and in vivo. The impact of their interaction with DNA and RNA on the SOD activity in vivo and in vitro has also been analyzed. Differences in their behavior are due to the combined steric and electrostatic factors. In vitro catalytic activities are closely related to their redox potentials. The half-wave potentials (E1/2) are +0.220 mV, +0.052 mV, and +0.060 V versus normal hydrogen electrode, whereas the rates of dismutation (kcat) are 6.0 x 10(7), 4.1 x 10(6), and 3.8 x 10(6) M-1 s-1 for the ortho, meta, and para isomers, respectively. However, the in vitro activity is not a sufficient predictor of in vivo efficacy. The ortho and meta isomers, although of significantly different in vitro SOD activities, have fairly close in vivo SOD efficacy due to their similarly weak interactions with DNA. In contrast, due to a higher degree of interaction with DNA, the para isomer inhibited growth of SOD-deficient Escherichia coli.
Published: 1998

32. Isolation and characterization of the pseudocatalase of Lactobacillus plantarum.

Author: Kono, Y and Fridovich, I
Abstract: The nonheme, or pseudo, catalase of Lactobacillus plantarum has been purified to homogeneity. This enzyme is pink in concentrated solutions and has a molecular weight of 172,000 +/- 4,000. It is composed of six noncovalently associated subunits of molecular weight 28,300 +/- 600. This pseudocatalase contains 1.12 +/- 0.37 atoms of manganese per subunit. Fe, Co, Cu, and Zn, if present at all, were at less than 0.1 atom per subunit. At pH 7.0 and at 25 degrees C the Km for H2O2 is 250 mM and the turnover number at Vm was 3.9 x 10(5) mol of H2O2 per mol of enzyme per s. The optical spectrum of pseudocatalase is similar to that of the manganese superoxide dismutase and indicates the presence of Mn(III) in the resting enzyme. Pseudocatalase does not exhibit superoxide dismutase activity nor does the manganese-containing superoxide dismutase exhibit catalase activity. This pseudocatalase is stable to freezing and thawing and lost only 40% of its activity when heated to 80 degrees C for 5 min. Strains of L. plantarum which contain pseudocatalase did not accumulate H2O2 in the growth medium.
Published: 1983
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