Abstract
Superoxide dismutases are enzymes that defend against oxidative stress through decomposition of superoxide radical. Escherichia coli contains two highly homologous superoxide dismutases, one containing manganese (MnSOD) and the other iron (FeSOD). Although E. coli Mn and FeSOD catalyze the dismutation of superoxide with comparable rate constants, it is not known if they are physiologically equivalent in their protection of cellular targets from oxyradical damage. To address this issue, isogenic strains of E. coli containing either Mn or FeSOD encoded on a plasmid and under the control of tac promoter were constructed. SOD specific activity in the Mn and FeSOD strains could be controlled by the concentration of isopropyl beta-thiogalactoside in the medium. The tolerance of these strains to oxidative stress was compared at equal Mn and FeSOD specific activities. Our results indicate that E. coli Mn and FeSOD are not functionally equivalent. The MnSOD is more effective than FeSOD in preventing damage to DNA, while the FeSOD appears to be more effective in protecting a cytoplasmic superoxide-sensitive enzyme. These data are the first demonstration that Mn and FeSOD are adapted to different antioxidant roles in E. coli.
Highlights
Superoxide dismutases are enzymes that defend minimal medium
The ability to complement the E. coli SOD null mutant with either Mn or FeSOD suggests that the two SODs are similar or identical in their physiological function
The Mn and FeSOD ligation mixtures describedabove were electroporated intoE. coli strain OX326A.1 and electroporants plated on Luria-Bertani medium (LB) containing ampicillin, 10 p M parafor chromosomal SODgenes and containing plasmiedxspressing either Mn or FeSOD under control of the tac promoter
Summary
From the Departmentof Biochemistry, Albert Einstein College of Medicine, Bronx, NewYork 10461. The abbreviationsused are: SOD,superoxide dismutase; MnSOD, EXPERIMENTALPROCEDURES manganese-containing superoxide dismutase; FeSOD, iron-contain- Culture Conditions-All liquid and solid culturing was at 37 “C in ing superoxide dismutase; LB, Luria-Bertani medium; IPTG, isopro- Luriabroth(Silhavy etal., 1984),with sodiumampicillinwhere pyl /3-D-thiogalactoside; ANOVA, analysis of variance. One unoift glucose-6-phosphate dehydrogenase t o separate the structural genes of MnSOD and FeSOD from their or 6-phosphogluconate dehydratase activity corresponds to1+mol of endogenous regulatory sequences and place their transcription under NADPH/min or 1 pmol of pyruvate/min, respectively (Kaoand control of the tac promoter invector pTTQ18 (Stark,1987). The tac promoter is immediately 5’ to theEcoRI site of pTTQ18 (Stark, 1987)
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