Glutathione protects Lactococcus lactis against oxidative stress

Glutathione protects Lactococcus lactis against oxidative stress

Glutathione was found in several dairy Lactococcus lactis strains grown in M17 medium. None of these strains was able to synthesize glutathione. In chemically defined medium, L. lactis subsp. cremoris strain SK11 was able to accumulate up to similar to60 mM glutathione when this compound was added to the medium. Stationary-phase cells of strain SK11 grown in chemically defined medium supplemented with glutathione showed significantly increased resistance (up to fivefold increased resistance) to treatment with H2O2 compared to the resistance of cells without intracellular glutathione. The resistance to H2O2 treatment was found to be dependent on the accumulation of glutathione in 16 strains of L. lactis tested. We propose that by taking up glutathione, L. lactis might activate a glutathione-glutathione peroxidase-glutathione reductase system in stationary-phase cells, which catalyzes the reduction of H2O2. Glutathione reductase, which reduces oxidized glutathione, was detectable in most strains of L. lactis, but the activities of different strains were very variable. In general, the glutathione reductase activities of L. lactis subsp. lactis are higher than those of L. lactis subsp. cremoris, and the activities were much higher when strains were grown aerobically. In addition, glutathione peroxidase is detectable in strain SK11, and the level was fivefold greater when the organism was grown aerobically than when the organism was grown anaerobically. Therefore, the presence of glutathione in L. lactis could result in greater stability under storage conditions and quicker growth upon inoculation, two important attributes of successful starter cultures.

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Main Authors: Li, Y., Hugenholtz, J., Abee, T., Molenaar, D.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:acid bacteria, escherichia-coli, growth-conditions, metabolism, oxidized glutathione, peroxidase, purification, reductase, saccharomyces-cerevisiae, thioredoxin,
Online Access:https://research.wur.nl/en/publications/glutathione-protects-lactococcus-lactis-against-oxidative-stress
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spelling dig-wur-nl-wurpubs-3258362024-12-04 Li, Y. Hugenholtz, J. Abee, T. Molenaar, D. Article/Letter to editor Applied and Environmental Microbiology 69 (2003) 10 ISSN: 0099-2240 Glutathione protects Lactococcus lactis against oxidative stress 2003 Glutathione was found in several dairy Lactococcus lactis strains grown in M17 medium. None of these strains was able to synthesize glutathione. In chemically defined medium, L. lactis subsp. cremoris strain SK11 was able to accumulate up to similar to60 mM glutathione when this compound was added to the medium. Stationary-phase cells of strain SK11 grown in chemically defined medium supplemented with glutathione showed significantly increased resistance (up to fivefold increased resistance) to treatment with H2O2 compared to the resistance of cells without intracellular glutathione. The resistance to H2O2 treatment was found to be dependent on the accumulation of glutathione in 16 strains of L. lactis tested. We propose that by taking up glutathione, L. lactis might activate a glutathione-glutathione peroxidase-glutathione reductase system in stationary-phase cells, which catalyzes the reduction of H2O2. Glutathione reductase, which reduces oxidized glutathione, was detectable in most strains of L. lactis, but the activities of different strains were very variable. In general, the glutathione reductase activities of L. lactis subsp. lactis are higher than those of L. lactis subsp. cremoris, and the activities were much higher when strains were grown aerobically. In addition, glutathione peroxidase is detectable in strain SK11, and the level was fivefold greater when the organism was grown aerobically than when the organism was grown anaerobically. Therefore, the presence of glutathione in L. lactis could result in greater stability under storage conditions and quicker growth upon inoculation, two important attributes of successful starter cultures. en application/pdf https://research.wur.nl/en/publications/glutathione-protects-lactococcus-lactis-against-oxidative-stress 10.1128/AEM.69.10.5739-5745.2003 https://edepot.wur.nl/21312 acid bacteria escherichia-coli growth-conditions metabolism oxidized glutathione peroxidase purification reductase saccharomyces-cerevisiae thioredoxin Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic acid bacteria
escherichia-coli
growth-conditions
metabolism
oxidized glutathione
peroxidase
purification
reductase
saccharomyces-cerevisiae
thioredoxin
acid bacteria
escherichia-coli
growth-conditions
metabolism
oxidized glutathione
peroxidase
purification
reductase
saccharomyces-cerevisiae
thioredoxin
spellingShingle acid bacteria
escherichia-coli
growth-conditions
metabolism
oxidized glutathione
peroxidase
purification
reductase
saccharomyces-cerevisiae
thioredoxin
acid bacteria
escherichia-coli
growth-conditions
metabolism
oxidized glutathione
peroxidase
purification
reductase
saccharomyces-cerevisiae
thioredoxin
Li, Y.
Hugenholtz, J.
Abee, T.
Molenaar, D.
Glutathione protects Lactococcus lactis against oxidative stress
description Glutathione was found in several dairy Lactococcus lactis strains grown in M17 medium. None of these strains was able to synthesize glutathione. In chemically defined medium, L. lactis subsp. cremoris strain SK11 was able to accumulate up to similar to60 mM glutathione when this compound was added to the medium. Stationary-phase cells of strain SK11 grown in chemically defined medium supplemented with glutathione showed significantly increased resistance (up to fivefold increased resistance) to treatment with H2O2 compared to the resistance of cells without intracellular glutathione. The resistance to H2O2 treatment was found to be dependent on the accumulation of glutathione in 16 strains of L. lactis tested. We propose that by taking up glutathione, L. lactis might activate a glutathione-glutathione peroxidase-glutathione reductase system in stationary-phase cells, which catalyzes the reduction of H2O2. Glutathione reductase, which reduces oxidized glutathione, was detectable in most strains of L. lactis, but the activities of different strains were very variable. In general, the glutathione reductase activities of L. lactis subsp. lactis are higher than those of L. lactis subsp. cremoris, and the activities were much higher when strains were grown aerobically. In addition, glutathione peroxidase is detectable in strain SK11, and the level was fivefold greater when the organism was grown aerobically than when the organism was grown anaerobically. Therefore, the presence of glutathione in L. lactis could result in greater stability under storage conditions and quicker growth upon inoculation, two important attributes of successful starter cultures.
format Article/Letter to editor
topic_facet acid bacteria
escherichia-coli
growth-conditions
metabolism
oxidized glutathione
peroxidase
purification
reductase
saccharomyces-cerevisiae
thioredoxin
author Li, Y.
Hugenholtz, J.
Abee, T.
Molenaar, D.
author_facet Li, Y.
Hugenholtz, J.
Abee, T.
Molenaar, D.
author_sort Li, Y.
title Glutathione protects Lactococcus lactis against oxidative stress
title_short Glutathione protects Lactococcus lactis against oxidative stress
title_full Glutathione protects Lactococcus lactis against oxidative stress
title_fullStr Glutathione protects Lactococcus lactis against oxidative stress
title_full_unstemmed Glutathione protects Lactococcus lactis against oxidative stress
title_sort glutathione protects lactococcus lactis against oxidative stress
url https://research.wur.nl/en/publications/glutathione-protects-lactococcus-lactis-against-oxidative-stress
work_keys_str_mv AT liy glutathioneprotectslactococcuslactisagainstoxidativestress
AT hugenholtzj glutathioneprotectslactococcuslactisagainstoxidativestress
AT abeet glutathioneprotectslactococcuslactisagainstoxidativestress
AT molenaard glutathioneprotectslactococcuslactisagainstoxidativestress
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