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Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The glutathione S-transferases (GSTs) represent a significant group of detoxification enzymes that play an important role in drug resistance in all eukaryotic species. In this paper we report an identification and characterization of the two Saccharomyces cerevisiae genes,
GTT1
and GTT2 (
glutathione transferase
1 and 2), coding for functional
GST
enzymes. Despite only limited similarity with GSTs from other organisms (approximately 50%), recombinant Gtt1p and Gtt2p exhibit
GST
activity with 1-chloro-2, 4-dinitrobenzene as a substrate. Both Gtt1p and Gtt2p are able to form homodimers, as determined by two hybrid assay. Subcellular fractionation demonstrated that Gtt1p associates with the endoplasmic reticulum. Expression of
GTT1
is induced after diauxic shift and remains high throughout the stationary phase. Strains deleted for
GTT1
and/or GTT2 are viable but exhibit increased sensitivity to heat shock in stationary phase and limited ability to grow at 39 degreesC.
...
PMID:A novel membrane-bound glutathione S-transferase functions in the stationary phase of the yeast Saccharomyces cerevisiae. 979 9
The yeast Saccharomyces cerevisiae contains two glutaredoxins, encoded by GRX1 and GRX2, that are required for resistance to reactive oxygen species. We recently reported that Grx1 is active as a glutathione peroxidase and can directly reduce hydroperoxides (Collinson, E. J., Wheeler, G. L., Garrido, E. O., Avery, A. M., Avery, S. V., and Grant, C. M. (2002) J. Biol. Chem. 277, 16712-16717). We now show that Grx2 is also a general hydroperoxidase, and kinetic data indicate that both enzymes have a similar pattern of activity, which is highest with hydrogen peroxide, followed by cumene hydroperoxide and tert-butyl hydroperoxide. Furthermore, both Grx1 and Grx2 are shown be active as glutathione S-transferases (GSTs), and their activity with model substrates such as 1-chloro-2,4-dinitrobenzene is similar to their activity with hydroperoxides. Analysis of the Grx1 active site residues shows that Cys-27, but not Cys-30, is required for both the peroxidase and transferase activities, indicating that these reactions proceed via a monothiol mechanism. Deletion analysis shows that Grx1 and Grx2 have an overlapping function with yeast GSTs, encoded by
GTT1
and GTT2, and are responsible for the majority of cellular
GST
activity. In addition, multiple mutants lacking GRX1, GRX2,
GTT1
, and GTT2 show increased sensitivity to stress conditions, including exposure to xenobiotics, heat, and oxidants. In summary, glutaredoxins are multifunctional enzymes with oxidoreductase, peroxidase, and
GST
activity, and are therefore ideally suited to detoxify the wide range of xenobiotics and oxidants that can be generated during diverse stress conditions.
...
PMID:Role of yeast glutaredoxins as glutathione S-transferases. 1268 11
Using S. cerevisiae as a eukaryotic cell model we have analyzed the involvement of both
glutathione transferase
isoforms, Gtt1 and Gtt2, in constitutive resistance and adaptive response to menadione, a quinone which can exert its toxicity as redox cycling and/or electrophiles. The detoxification properties, of these enzymes, have also been analyzed by the appearance of S-conjugates in the media. Direct exposure to menadione (20 mM/60 min) showed to be lethal for cells deficient on both Gtt1 and Gtt2 isoforms. However, after pre-treatment with a low menadione concentration, cells deficient in Gtt2 displayed reduced ability to acquire tolerance when compared with the control and the Gtt1 deficient strains. Analyzing the toxic effects of menadione we observed that the gtt2 mutant showed no reduction in lipid peroxidation levels. Moreover, measuring the levels of intracellular oxidation during menadione stress we have shown that the increase of this oxidative stress parameter was due to the capacity menadione possesses in generating reactive oxygen species (ROS) and that both GSH and Gtt2 isoform were required to enhance ROS production. Furthermore, the efflux of the menadione-GSH conjugate, which is related with detoxification of xenobiotic pathways, was not detected in the gtt2 mutant. Taken together, these results suggest that acquisition of tolerance against stress generated by menadione and the process of detoxification through S-conjugates are dependent upon Gtt2 activity. This assessment was corroborated by the increase of GTT2 expression, and not of
GTT1
, after menadione treatment.
...
PMID:Menadione stress in Saccharomyces cerevisiae strains deficient in the glutathione transferases. 1715 89
Glutathione transferases are detoxifying enzymes responsible for eliminating toxic compounds generated under a variety of stress conditions. Saccharomyces cerevisiae control cells and
glutathione transferase
mutant strains (gtt1 and gtt2) were used to analyze tolerance, lipid and protein oxidation as oxidative stress markers during growth in the presence of H2O2. Glucose 6-phosphate dehydrogenase (G6PD) and glutathione reductase were assayed to monitor the capacity of cells to recycle glutathione. Although a reduction in growth was observed, deletion of
GTT1
showed less inhibition by H2O2 than the control strain. Cells showed a significant reduction in cellular viability during the first hours of growth, the gtt1 mutant being hypersensitive even after 24 h of H2O2 exposure. As a consequence of oxidative stress caused by exposure to H2O2, an increase in lipid peroxidation was observed, mainly in the
glutathione transferase
mutant strains. While protein carbonylation increased by 17% and 23%, respectively, after 2 h in the presence of H2O2 in the control and gtt2 mutant, a 40% increase was observed in the gtt1 strain after 24-h exposure. The antioxidant G6PD and glutathione reductase activities were affected in the gtt1 mutant during H2O2 exposure, which could be critical for recycling glutathione. The same was observed for the gtt2 mutant after 2-h treatment, indicating that glutathione recycling might be associated with the detoxification process. Thus, glutathione transferases, Gtt1 and Gtt2, seem to be crucial in the response to H2O2 stress.
...
PMID:Involvement of glutathione transferases, Gtt1and Gtt2, with oxidative stress response generated by H2O2 during growth of Saccharomyces cerevisiae. 1901 64
Candida albicans has four ORFs for glutathione transferases (GSTs) of the GTT classes, and another one coding for an Omega class member. Under laboratory conditions, only GTT11 (
GTT1
/2 class) and GTO1 (Omega class) are expressed significantly in exponentially growing cells, particularly when these are subjected to diverse environmental stresses, including oxidative stress. They also become transitorily upregulated at the early stationary phase. Accordingly, the levels of the CaGto1 and CaGtt11 proteins increase after treatment with oxidants and upon osmotic stress, in addition to the early stationary phase. GTT11 and GTO1 transcription shows a complex dependence on the Hog1 and Cap1 factors upon different stresses. Purified CaGtt11 and CaGto1 proteins display enzyme activities similar to the Saccharomyces cerevisiae homologues. Thus, CaGtt11 has activity against standard
GST
substrates and is also active as peroxidase, while CaGto1 displays thiol oxidoreductase and dehydroascorbate reductase activities. Fluorescence microscopy and subfractionation studies indicate that CaGto1 is cytosolic, while CaGtt11 is associated with a particulate fraction. Under ex vivo conditions, CaGto1 and CaGtt11 become transitorily upregulated inside macrophages and neutrophils. Under these conditions, the promoter of GTT14 (
GTT1
/2 class) also becomes activated. These observations point to the importance of C. albicans GSTs in the defence against phagocytes.
...
PMID:Expression of Candida albicans glutathione transferases is induced inside phagocytes and upon diverse environmental stresses. 2033 24
