Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Interactions of glutathione transferases (
GST
) of the alpha, mu and pi classes with glutathione (GSH) and glutathione conjugates (
GS-X
) are in contrast with those of a
GST
of the theta class (GST5-5). 2.
GST
5-5 has a Km for GSH of approx. 5 mM. Thus Km/ambient [GSH] is approx. 1, within the range of Km/ambient [s] of glycolytic enzymes. GSTs of the alpha, mu and pi classes yield much lower values of Km for GSH (approx. 0.1 mM) hence Km/ambient [s] is significantly lower than those of most (non-
GST
) enzymes (p < 0.025). 3. GSTs of the alpha, mu and pi classes are sensitive to inhibition by
GS-X
(i.e. product) and
GS-X
analogues.
GST
5-5 is not. 4. Rate enhancements up to 10(10), similar to an average enzyme (10(8)-10(12)), are seen in catalysis by
GST
5-5, but not in catalysis by GSTs of alpha, mu and pi classes (> 10(7)). 5. Comparisons of primary structure indicate that theta class GSTs may have a decreased binding of the glu-alpha-amino- and gly-COO(-)-groups of GSH compared with GSTs of the other classes. 6. It is concluded that GSTs of alpha, mu and pi classes have evolved towards increased product binding at the expense of catalytic efficiency. Thus GSH is uniquely utilized both as a nucleophile and a 'tag' which can be used to bind and sequester product particularly during GSH-depletion. This interpretation unifies the catalytic and binding properties of these GSTs and alters their perceived role in detoxication.
...
PMID:Significance of an unusually low Km for glutathione in glutathione transferases of the alpha, mu and pi classes. 828 39
The
glutathione S-transferase
(
GST
) activity towards 1-chloro-2,4-dinitrobenzene in intact human IGR-39 melanoma cells was determined by the quantification by HPLC-analysis of the excreted glutathione (GSH) conjugate (S-(2,4-dinitrophenyl)glutathione; DNPSG). The major
GST
subunit expressed in these melanoma cells is the pi-class
GST
subunit P1. Using this system, the effect of exposure for 1 h to a series of alpha, beta-unsaturated carbonyl compounds at non-toxic concentrations was studied. Curcumin was the most potent inhibitor (96% inhibition at 25 microM), while 67 and 61% inhibition at 25 microM was observed for ethacrynic acid and trans-2-hexenal, respectively. Moderate inhibition was observed for cinnamaldehyde and crotonaldehyde, while no inhibition was found for citral. The reactive acrolein did not inhibit the DNPSG-excretion at 2.5 microM, the highest non-toxic concentration. Up to about 50% GSH-depletion was found after treatment with crotonaldehyde, curcumin and ethacrynic acid, however the consequences for
GST
conjugation are presumably small. Reversible inhibition of
GST
was the major mechanism of inhibition of DNPSG-excretion in melanoma cells, except in the cases of curcumin and ethacrynic acid, which compounds also inactivated GSTP1-1 by covalent modification. This was clear from the fact that depending on the dose between 30 and 80% inhibition was still observed after lysis of the cells, under which conditions reversible inhibition was is absent. Intracellular levels of DNPSG remained relatively high in the case of ethacrynic acid. It is possible that ethacrynic acid also inhibits the transport of DNPSG by inhibition of the multidrug resistance-associated protein gene encoding glutathione conjugate export pump (MRP/
GS-X
pump) in some way.
...
PMID:Inhibition of glutathione S-transferase activity in human melanoma cells by alpha,beta-unsaturated carbonyl derivatives. Effects of acrolein, cinnamaldehyde, citral, crotonaldehyde, curcumin, ethacrynic acid, and trans-2-hexenal. 895 Feb 26
The authors have shown that expression of mGSTM1-1 or hGSTP1-1 in MCF-7 cells protects against DNA alkylation by 4-nitroquinoline-1-oxide (NQO) in an isozyme-specific manner and is commensurate with relative specific activity. Expression of GSTs also conferred protection against both DNA strand breaks and sister-chromatid exchange induced by NQO. Interestingly,
GST
expression did not protect against NQO cytotoxicity in transfected MCF-7 cell lines, although resistance to NQO cytotoxicity was observed in a T47D pi transfectant line, expressing much higher specific activity of the transfected hGSTP1-1. However, high level expression of hGSTP1-1 or mGSTM1-1 in V79 transfectants did not confer resistance to cytotoxicity, indicating that expression of
GST
alone is not sufficient. The authors have also shown protection against AFB1 in cell lines expressing transfected rat CYP2B1 (V79MZr2B1) and transfected mGST-Yc (mGSTA3-3). Protection was observed against both alkylation of DNA (3-fold) by [3H]AFB1 and against AFB1 cytotoxicity (7-fold). Similarly, V79MZr1A1 cells that express CYP1A1 and either transfected human or murine GSTP1-1 (< 5000 mIU/mg, CDNB) exhibited > 70% decrease in covalent labeling of total nucleic acids by [3H]BPDE. However, no protection against the cytotoxicity of BPDE was conferred by expression of hGSTP1-1. Overall, these results indicate that in some (NQO or BPDE), but not all (AFB1) cases, protection by
GST
expression against DNA damage is more effective than protection against cytotoxicity. In addition, there is evidence to indicate that additional factor(s) other than high
GST
isozyme expression level and good substrate efficacy affect the degree of protection against cytotoxicity of reactive electrophiles. This includes the differential protection against NQO cytotoxicity in T47D pi, but not V79 Xh pi-33 cells and also the recent studies which showed that expression of the MRP
GS-X
conjugate efflux transporter confers synergistic protection against NQO cytotoxicity when co-expressed with transfected human GSTP1-1 in MCF-7 cells. Thus, protective efficacy conferred by
GST
expression can vary with different cellular targets and/or experimental end-points, as well as with variations in relative specific activity or in different cellular phenotypic contexts.
...
PMID:Chemoprotective functions of glutathione S-transferases in cell lines induced to express specific isozymes by stable transfection. 967 69
Mg(2+)-dependent vanadate-sensitive glutathione S-conjugate ATPase (
GS-X
pump) activity is a common feature of some ATP-binding cassette (ABC) transporters, such as the multidrug resistance-associated protein (MRP1) gene product, that exports biologically active electrophiles after their conjugation with intracellular glutathione (GSH) from normal and cancer cells. Antitumor electrophiles (e.g. naturally occurring cyclopentenone prostaglandins and anticancer chemicals) can be intracellularly conjugated with GSH via a
glutathione S-transferase
catalyzed reaction and be eliminated through
GS-X
pumps thus threatening cancer chemotherapeutics. Since different sensitivities to antitumor electrophiles are shown by different cell types, the ability of several human cancer cell lines to produce and export S-(2,4-dinitrophenyl)-glutathione (DNP-SG) conjugate through the
GS-X
pump, using whole cells and inside-out membrane vesicle preparations, is investigated. Different cancer cell lines exhibited characteristically different
GS-X
pump activity. In particular, HEp-2 larynx carcinoma cells possess an elevated DNP-SG export rate through the
GS-X
pump compared with HeLa, K562, U937 or HL-60 cells, which exhibit the lowest activity. The differences in DNP-SG export rates are not due to decreased
glutathione S-transferase
activity or impaired de novo synthesis of GSH. The findings suggest that the
GS-X
pump may be involved in the modulation of the biological activity of both naturally occurring electrophiles and anticancer drugs. The differential expression of
GS-X
pumps may lead to an improved understanding of multidrug resistance and may be exploited in the development of new therapeutic strategies for the treatment of cancer patients.
...
PMID:Glutathione metabolism and glutathione S-conjugate export ATPase (MRP1/GS-X pump) activity in cancer. I. Differential expression in human cancer cell lines. 976 21
Glutathione (GSH) contents and activities of
glutathione S-transferase
(
GST
), glutathione reductase (GSH-RD), glutathione peroxidase (GSHpx) and glutathione conjugate export pump (
GS-X
pump) were determined in eight human tumor cell lines with different sensitivities to adriamycin and chlorambucil. Correlations between sensitivities of the human tumor cells to adriamycin and chlorambucil and the glutathione related factors were analyzed statistically. Sensitivities of the human tumor cells to chlorambucil were found to be correlated to all the glutathione related factors tested (r=0.68-0.88). IC50 values of adriamycin were also positively correlated to GSH contents and activities of GSH-RD, GSHpx and
GS-X
pump with r values ranging from 0.66 to 0.77 but not to
GST
activity (r=0.25). Chang liver cells with highest GSH content and highest activities of
GST
, GSH-RD, GSHpx and
GS-X
pump were most resistant to both adriamycin and chlorambucil. These data suggested that glutathione related factors may work as an overall detoxification system participating in the detoxification of anticancer drugs such as adriamycin and chlorambucil, and to be involved in cellular resistance to these drugs.
...
PMID:GSH, GSH-related enzymes and GS-X pump in relation to sensitivity of human tumor cell lines to chlorambucil and adriamycin. 1020 Mar 35
We examined the roles of
glutathione S-transferase
(
GST
) P1-1 and the glutathione S-conjugate (
GS-X
) transporter, multidrug resistance protein 1 (MRP1), singly or in combination, in the detoxification of 1-chloro-2,4-dinitrobenzene (CDNB). Derivatives of MCF7 breast carcinoma cells expressing
GST
P1-1 and MRP1 alone or in combination were developed. Detoxification was measured in cells as formation of the glutathione conjugate of CDNB, S-(2,4-dinitrophenyl)-glutathione (DNP-SG), efflux of DNP-SG, and ultimately protection from CDNB cytotoxicity. MRP1 expression in the absence of
GST
P1-1 confers a three- to fourfold resistance to CDNB, which is associated with a >10-fold increase in the maximum rate of DNP-SG efflux. DNP-SG efflux in MRP1-expressing MCF7 cells was ATP-dependent and exhibited an apparent Km for DNP-SG of 95 microM. MRP1 expression alone, however, had no effect on DNP-SG formation. Combined expression of
GST
P1-1 and MRP1 increased the rates of DNP-SG formation when cells were exposed to 10 microM CDNB. Moreover, combined expression of GSTP1-1 with MRP1 moderately augmented MRP1-mediated resistance to CDNB but only during short term (10 min) exposures to CDNB where IC50 values were in the 8-10 microM range. In contrast, expression of
GST
P1-1 in the absence of MRP1 slightly sensitized cells to the toxicity of CDNB (10 min exposures), despite increasing rates of DNP-SG formation. The sensitization to CDNB in cells expressing
GST
P1-1 alone was associated with increased intracellular accumulation of DNP-SG, indicating that DNP-SG may contribute to CDNB toxicity. The potential toxicity of DNP-SG is also suggested by the finding that inhibition of DNP-SG formation by prior glutathione depletion confers resistance to CDNB cytotoxicity in MRP1-poor MCF7 cells. Altogether, our results demonstrate that glutathione conjugation and MRP1-mediated conjugate efflux can operate together to confer resistance to CDNB. The data indicate that MRP1-mediated conjugate efflux is required for cytoprotection from CDNB because its conjugate (DNP-SG), when present at high intracellular levels, may also be toxic to cells.
...
PMID:Detoxification of 1-chloro-2,4-dinitrobenzene in MCF7 breast cancer cells expressing glutathione S-transferase P1-1 and/or multidrug resistance protein 1. 1036 41
Glutathione (GSH),
glutathione S-transferase
(
GST
), and glutathione conjugate export pump (
GS-X
pump) have been shown to participate collectively in the detoxification of many anticancer drugs, including cisplatin. Identification and regulation of the rate-limiting step in the overall system for cisplatin detoxification is of crucial importance for sensitization of human tumor cells to cisplatin. In this study, the GSH content,
GST
activity, and
GS-X
pump activity were regulated separately to examine effects of the regulation on cisplatin cytotoxicity and cisplatin-induced DNA interstrand cross-links (ICL) in HepG2 cells. Seventy-percent depletion of GSH by buthionine sulfoximine (BSO) and 50% increase of GSH by monoethyl GSH ester (GSHe) potentiated and decreased cisplatin cytotoxicity, respectively. This was reflected by a significant decrease and increase of their respective IC(50) values by 62 and 107%. Cisplatin-induced ICL was also potentiated by depletion of GSH by BSO and decreased by enrichment of GSH by GSHe, as shown by a 125% increase and a 34% decrease of cross-linked DNA compared with control samples exposed to cisplatin alone (p = 0.008 and 0.03, respectively). On the other hand, inhibition of
GST
and
GS-X
pump by ethacrynic acid, quercetin, tannic acid, and indomethacin at concentrations that inhibited activities of
GST
and
GS-X
pump by more than 50% had no significant effects on cisplatin cytotoxicity and cisplatin-induced DNA ICL in these cells. The results showed that of the parameters measured, intracellular GSH seems to be the rate-limiting factor, and its regulation would provide a more promising strategy for sensitization of human liver tumor cells to cisplatin.
...
PMID:Modulation of cisplatin cytotoxicity and cisplatin-induced DNA cross-links in HepG2 cells by regulation of glutathione-related mechanisms. 1125 28
Certain chemopreventive agents are thought to work in part via induction of
GST
expression. We have utilized transgenic cell lines to show that
GST
expression can protect against DNA alkylation, and in some cases cytotoxicity caused by electrophilic carcinogens conjugated by GSTs (e.g. 4-NQO, B[a]P, DiB[a,l]P, AFB(1), and certain drugs). However, factors governing protection by
GST
are complex and vary with different agents and end-points. For example, expression of
GST
alone was sufficient for partial protection against DNA alkylation by 4-NQO, but protection against 4-NQO cytotoxicity was only observed when the ATP-dependent
GS-X
transport protein MRP1 was also co-expressed. The dynamic competition between activation and detoxification is the focus of current studies in cells that co-express both CYP1A1 and either hGSTP1 or hGSTM1. Expression of hGSTP1 largely blocked B[a]P toxicity induced via the moderate activation by rat or human CYP1A1. With DiB[a,l]P, GSTs gave up to 7-fold protection against toxicity only when activated by human CYP1A1. However, cells with CYP1A1+GST remained at least 20-fold more sensitive to DiB[a,l]P than parent cells lacking either activity, due to strong activation by hCYP1A1. In summary, we have found that protection by GSTs against B[a]P or DiB[a,l]P toxicity is highly variable depending on differences in: (a) the PAH structure; (b) the human vs. rat CYP1A1 expressed; (c)
GST
isozyme(s) expressed; (d) cellular expression of conjugate transporters; or (e) DNA damage versus cytoxicity end-points.
...
PMID:Modeling the metabolic competency of glutathione S-transferases using genetically modified cell lines. 1250 23
The objective of this study was to investigate the structural requirements necessary for inhibition of
glutathione S-transferase
P1-1 (GSTP1-1) and
GS-X
pump (MRP1 and MRP2) activity by structurally related flavonoids, in GSTP1-1 transfected MCF7 cells (pMTG5). The results reveal that GSTP1-1 activity in MCF7 pMTG5 cells can be inhibited by some flavonoids. Especially galangin was able to inhibit almost all cellular GSTP1-1 activity upon exposure of the cells to a concentration of 25microM. Other flavonoids like kaempferol, eriodictyol and quercetin showed a moderate GSTP1-1 inhibitory potential. For GSTP1-1 inhibition, no specific structural requirements necessary for potent inhibition could be defined. Most flavonoids appeared to be potent
GS-X
transport inhibitors with IC(50) values ranging between 0.8 and 8microM. Luteolin and quercetin were the strongest inhibitors with IC(50) values of 0.8 and 1.3microM, respectively. Flavonoids without a C2-C3 double bond like eriodictyol, taxifolin and catechin did not inhibit
GS-X
pump activity. The results of this study demonstrate that the structural features necessary for high potency
GS-X
pump inhibition by flavonoids are (1) the presence of hydroxyl groups, especially two of them generating the 3',4'-catechol moiety; and (2) a planar molecule due to the presence of a C2-C3 double bond. Other factors, like lipophilicity and the total number of hydroxyl groups do not seem to be dominating the flavonoid-mediated
GS-X
pump inhibition. To identify the
GS-X
pump responsible for the DNP-SG efflux in MCF7 cells, the effects of three characteristic flavonoids quercetin, flavone and taxifolin on MRP1 and MRP2 activity were studied using transfected MDCKII cells. All three flavonoids as well as the typical MRP inhibitor (MK571) affected MRP1-mediated transport activity in a similar way as observed in the MCF7 cells. In addition, the most potent
GS-X
pump inhibitor in the MCF7 cells, quercetin, did not affect MRP2-mediated transport activity. These observations clearly indicate that the
GS-X
pump activity in the MCF7 cells is likely to be the result of flavonoid-mediated inhibition of MRP1 and not MRP2. Altogether, the present study reveals that a major site for flavonoid interaction with GSH-dependent toxicokinetics is the
GS-X
pump MRP1 rather than the conjugating GSTP1-1 activity itself. Of the flavonoids shown to be most active especially quercetin is frequently marketed in functional food supplements. Given the physiological levels expected to be reached upon supplement intake, the IC(50) values of the present study point at possible flavonoid-drug and/or flavonoid-xenobiotic interactions especially regarding transport processes involved in toxicokinetics.
...
PMID:Structural requirements for the flavonoid-mediated modulation of glutathione S-transferase P1-1 and GS-X pump activity in MCF7 breast cancer cells. 1504 78
The histone deacetylase inhibitor sodium butyrate induces several gene products that modify cellular metabolism. Here, we investigated its ability to modulate glutathione-related detoxification enzymes in the breast cancer cell line MCF-7 and a derivative resistant to vincristine (VCREMS). We found that sodium butyrate induced
glutathione S-transferase
and glutathione-dependent peroxidase activities and triggered glutathione depletion. Expression of MRP1, an ATP-dependent
GS-X
pump, was unmodified. Moreover, isobologram analysis showed that sodium butyrate sensitized VCREMS to doxorubicin-mediated toxicity. Verapamil, an inhibitor of MRP1, did not significantly affect this chemosensitizing effect, suggesting that the observed toxicity stems from multifactorial mechanisms. Interestingly, synergism between sodium butyrate and doxorubicin was more pronounced in resistant VCREMS cells than in parental sensitive MCF-7 cells.
...
PMID:Modulation of sensitivity to doxorubicin by the histone deacetylase inhibitor sodium butyrate in breast cancer cells. 1587 Aug 71
1
