EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Cytotoxicity of Adriamycin on human colon adenocarcinoma cell lines was investigated. Concentrations of Adriamycin producing 50% inhibition were very similar in HT29, Sw480, Sw620, and Sw1116 cells, whereas Caco-2 cells were relatively insensitive. As compared to the Sw1116 cell line, Caco-2 cells were also insensitive to mitoxantrone. Sensitivity to cisplatin, 5-fluorouracil, or ethacrynic acid was comparable in both cell lines. To find the mechanism for this mitoxantrone and Adriamycin resistance, several potential Adriamycin-detoxifying systems were characterized and quantified in both Sw1116 and Caco-2 cells. No dramatic differences in glutathione content and expression of both selenium dependent- and independent glutathione peroxidase, UDP-glucuronyltransferase, and cytochrome P-450 were found. However, highly significant differences in glutathione S-transferase activity were present, the expression of both class pi and class alpha glutathione S-transferases being much higher in the Caco-2 cell line. In addition, a slightly higher content of P-170 glycoprotein was present in the Caco-2 cells. These findings suggest that glutathione S-transferases, and to a lesser extent the P-170 glycoprotein, may be involved in mitoxantrone and Adriamycin resistance of Caco-2 colon carcinoma cells.
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PMID:Biochemical characterization of resistance to mitoxantrone and adriamycin in Caco-2 human colon adenocarcinoma cells: a possible role for glutathione S-transferases. 134 15

Four human colon cancer cell lines (SW620, LS 180, DLD-I, and HCT-15) and sub-lines isolated in vitro by selection with Adriamycin were studied for reversal of intrinsic and acquired Adriamycin resistance, using buthionine sulfoximine (BSO) to deplete cellular glutathione alone and in combination with the P-glycoprotein antagonist verapamil. GSH levels varied among the parental cell lines but did not increase with resistance. In the parental SW620, DLD-I and HCT-15 and their drug-resistant derivatives, there was no relation between the effect of the glutathione-depleting agent BSO, the mRNA expression of both selenium-dependent glutathione peroxidase (GPx) and glutathione S-transferase pi (GST pi), bulk glutathione S-transferase (GST) activity, and the degree of resistance. However, in LS 180 and its derivative sub-lines, which do not principally rely on P-glycoprotein (Pgp) for Adriamycin resistance, treatment with BSO demonstrated a relatively diminished GSH depletion and enhanced recovery. In comparison with the other acquired cell lines, BSO specifically reversed acquired resistance in the LS 180 Adriamycin-resistant subline (LS 180 Ad150) after short-term drug exposure. Furthermore, the LS 180 Ad150 cells demonstrated an increase in both GPx and GST pi mRNA expression. These observations suggest that glutathione-mediated detoxification of Adriamycin may play a role in the resistance of this sub-line. Verapamil enhanced Adriamycin cytotoxicity 1.2- to 12-fold in the intrinsically resistant cells and as much as 15-fold in cell lines with acquired resistance. Combination of BSO with verapamil resulted in additive, but not synergistic, reversal of resistance. The results underscore the complex nature of Adriamycin resistance, and suggest a role for drug-resistance-modulating agents in the treatment of colon carcinoma.
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PMID:Contribution of glutathione and glutathione-dependent enzymes in the reversal of adriamycin resistance in colon carcinoma cell lines. 168 79

Subpopulations of HT 29 human colon carcinoma cells (HT/M and HT/S) were selected for resistance to the glutathione S-transferase (GST) inhibitor ethacrynic acid (EA). Both clones displayed a 2-fold resistance to the selection agent and required its constant presence for the maintenance of the resistant phenotype. Purification and characterization of GST isoforms showed similar profiles in the wild-type (WT) and EA-resistant clones, with microheterogeneous forms of the pi isoenzyme detected in each case. Metabolism of EA in vitro in the presence of GSH and the isolated GST from each cell line was characterized by a biphasic disappearance of the parent drug; the initial rate at which each of these enzymes metabolized EA was similar. These enzymes also displayed similar Km values for 1-chloro-2,4-dinitrobenzene. However, the amount of GST isolated per total cellular protein was 3.0-fold in HT/M and 1.6-fold in HT/S relative to WT in the continuous presence of EA. Under these conditions GST activity was increased by 2.3-fold in HT/M and 3.2-fold in HT/S as were GSH levels (2.7- and 4.1-fold for HT/M and HT/S respectively). When EA was removed, enzyme activity and GSH concentrations decreased to values similar to those of the WT. Slot-blot and Southern analyses of the DNA gave no evidence of GST-pi-gene amplification or rearrangement. However, RNA analyses by both slot-blot and Northern studies indicate a 2.5-3.5-fold elevation in the GST pi transcript in the EA-resistant population. Results from these studies indicate that: (1) maintenance of the EA-resistant phenotype requires constant presence of the agent; (2) the 2-fold resistance to EA can be quantitatively related to a 2-3-fold increase in GST activity and amount which appears to be the result of a 2.5-3.5-fold elevation in GST transcript; (3) EA, a Michael-reaction acceptor, can induce GST at the transcriptional level.
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PMID:Increased levels of glutathione S-transferase pi transcript as a mechanism of resistance to ethacrynic acid. 173 59

Medullary thyroid carcinoma (MTC) is a cancer that is relatively insensitive to clinical chemotherapy. Our previous studies have demonstrated that an established human MTC cell line, TT, seems to possess an intrinsic resistance phenotype when tested for its chemosensitivity to multiple antineoplastic agents. We now report our investigation on the potential mechanisms responsible for the chemoresistance of TT cells. Northern analysis showed an increased level of multidrug resistance gene (mdrl) mRNA in TT and in an inherently drug-resistant colon carcinoma cell line, LoVo, when compared with CEM, a drug-sensitive leukemic lymphoblastic cell line; the latter two cell lines were included here as a control. Verapamil (10 microM) partially reversed resistance to doxorubicin in TT and LoVo cells, but had no effect on doxorubicin cytotoxicity to CEM cells. Expression of glutathione-S-transferase-pi (GST pi) gene was undetectable in TT, whereas, under similar conditions, GST pi mRNA was detectable in LoVo. Growth kinetics studies revealed that doubling times of the 3 cell lines in exponential growth were 95, 37, and 24 h for TT, LoVo and CEM, respectively. Flow-cytometric analysis showed that the percentage of TT population is S phase was 49% and 33% of the LoVo and CEM cell populations, respectively, while the G1/G0 fraction of TT was about 63% and 61% higher than that of LoVo and CEM, respectively. Our data suggest that the intrinsic chemoresistance in TT cells may be attributed to the combined factors of overexpression of the mdrl gene, a slower growth rate and a smaller proliferation fraction, although other factors or mechanisms that are yet to be investigated may also act in concert to contribute to the resistance phenotype of TT.
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PMID:Intrinsic drug resistance in a human medullary thyroid carcinoma cell line: association with overexpression of mdrl gene and low proliferation fraction. 188 39

A large number of human tumor cell lines of various origins have been investigated with respect to expression of glutathione-linked enzymes in the cytosol fraction. The amounts of the different enzymes were estimated by use of activity measurements and by silver staining or immunoblot analysis after electrophoresis of cytosol fractions purified by affinity chromatography on S-hexylglutathione Sepharose. Class Pi glutathione transferase was the most abundant enzyme in most tumor cells; the cell lines HepG2 and Raji were exceptions in not expressing significant amounts of this enzyme. HepG2 cells derive from hepatocytes, which normally do not express the class Pi enzyme, whereas Raji cells originate from B-lymphocytes, which normally do express a class Pi glutathione transferase. The highest level of the class Pi transferase, in terms of protein reacting with antibodies as well as enzyme activity, was noted in the colon carcinoma cell line LS174T. Hu549Pat cells, EBV-transformed B-lymphocytes, also expressed high levels of a protein reacting with antibodies specific for class Pi glutathione transferases, but did not display any significant activity with ethacrynic acid, a substrate characteristic for this class. Class Alpha and class Mu glutathione transferases, in cell lines expressing these isoenzymes, were present in significantly lower concentrations than the class Pi enzyme. Most of the tumor cells contained a class Alpha transferase composed of 27.5 kd subunits, which has the physicochemical and immunological properties of the most basic glutathione transferase found in human skin. In several cell lines, a protein was detected with an apparent subunit Mr value of 30 kd that was tentatively identified as an additional class Alpha glutathione transferase not previously described. In addition, other glutathione-linked enzyme activities, namely glutathione peroxidase, glutathione reductase and glyoxalase I, were assayed with specific substrates in the cytosolic fraction of the tumor cells; glyoxalase I could also be estimated semiquantitatively by silver staining of SDS-PAGE cells after affinity chromatography. Like the glutathione transferases, these enzymes displayed distinctly different levels of expression in the various cell lines. Thus, virtually every cell line was found to have a unique pattern of glutathione-linked enzymes, suggesting that the resistance phenotypes of the cells differ accordingly.
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PMID:Differences among human tumor cell lines in the expression of glutathione transferases and other glutathione-linked enzymes. 240 Oct 46

Colon cancer is one of the tumors most refractory to treatment by chemotherapy, and this may be due to inherent phenotypic instability of such tumor cells with respect to the biochemical determinants of drug sensitivity. To test this hypothesis, a clonal human colon carcinoma cell line, clone A, was passaged in culture in the absence of selection conditions or mutagens. During this time, sensitivity to several drugs was examined, and was found to decrease 4-fold during 30 weeks of culture. Five randomly selected subclones, having never been exposed to drug or mutagen, displayed a range of sensitivities to etoposide (50% inhibitory concentrations ranging from 1.5 to 4.9 microM) and to vincristine (9-fold range), but all had the same sensitivity to methotrexate. With time these sensitivities also changed, and subsequent subclones were chosen from the lines with highest and lowest drug sensitivity. Again a wide range of phenotypes was observed. Sensitivity to vincristine ranged 14-fold and to doxorubicin 3-fold. Several biochemical determinants of drug sensitivity had a broad range of expression between cell lines. Cellular accumulation of [3H]vincristine, as well as expression of multidrug resistance protein P170 and glutathione transferase activity all varied significantly between subclonal lines. This suggests that some human colon tumors may be phenotypically unstable with respect to drug sensitivity, and this could contribute to clinical resistance to chemotherapeutic compounds.
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PMID:Phenotypic instability of drug sensitivity in a human colon carcinoma cell line. 256 72

The human colon carcinoma cell line Caco-2 was examined for glutathione S-transferase (GST) composition and activity. Freshly seeded cells and cells until 4 days after confluency contain only the placental (Pi) form of glutathione transferase. Cells in culture for longer periods start to express class-Alpha GST isoenzymes. Confluent cells in culture for 20 days or longer contain up to 90% class-Alpha GST. Class-Mu GSTs are not detectable. GST activity gradually increases from 564 +/- 28 to 5381 +/- 165 nmol/min per mg of protein at day 0 and 32 after confluency respectively. With regard to GST composition, Caco-2 cells in culture for longer periods most resemble small-intestinal cells, whereas short-time cultures have characteristics of colonic cells. This cell line is very well suited for the study of both the in vitro properties and the expression of class Alpha and Pi GSTs.
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PMID:Time-dependent activity and expression of glutathione S-transferases in the human colon adenocarcinoma cell line Caco-2. 260 34

Ethacrynic acid and piriprost (6,9-deepoxy-6,9-(phenylimino)-delta 6,8-prostaglandin I1) have been shown to potentiate the cytotoxic activity of chlorambucil in rat and human tumor cell lines. Walker 256 rat breast carcinoma cells (WS), with acquired resistance to nitrogen mustards (WR), and two human colon carcinoma cell lines, HT 29 and BE, were sensitized to chlorambucil when either ethacrynic acid or piriprost was administered at the same time as the alkylating agent. Both as single agents and in combination with chlorambucil, there was inhibition of glutathione S-transferase activity as measured with 1-chloro-2,4-dinitrobenzene as a substrate. A depletion in intracellular glutathione was also evident following ethacrynic acid alone or in combination with chlorambucil. Thus, diuretic plant phenols or prostaglandin analogues may have potential therapeutic utility in combination with alkylating agents.
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PMID:Ethacrynic acid and piriprost as enhancers of cytotoxicity in drug resistant and sensitive cell lines. 328 31

We have used a rat glutathione S-transferase P (GST-P) complementary DNA as a probe to screen a human placenta complementary DNA library constructed in the lambda gt11 vector. One of the positive clones contained the complete coding region (630 base pair) and the entire 3'-noncoding region (78 base pair) of the putative human glutathione S-transferase pi (GST-pi) subunit mRNA. From the nucleotide sequence we deduced the complete amino acid sequence of the GST-pi subunit. It contained 209 amino acids with the relative molecular mass of Mr 23,224. Comparison of the amino acid sequences between GST-pi and GST-P subunits suggests that they are the corresponding enzymes in these species. GST-pi and GST-P both consist of 209 amino acids and differ in only 30 amino acids (85.6% homology). The difference in amino acid composition can explain the large difference in isoelectric point between GST-pi subunit (pI 5.5) and GST-P subunit (pI 6.9). The expression of GST-pi mRNA in some normal and cancerous tissues, including some hepatoma cell lines, hepatoma, and colon carcinoma specimens was determined using complementary DNA as a probe. The results indicate that the mode of the expression of GST-pi in humans is different from that of GST-P in rats.
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PMID:Structure and expression of a human class pi glutathione S-transferase messenger RNA. 366 69

Ethacrynic acid (EA) is a plant phenolic acid that is both an inhibitor and an inducer of glutathione S-transferase (GST) activity. To determine contributory factors in the increased GST activity caused by EA treatment, human colon carcinoma HT29 cells were compared with a cloned EA-resistant population (HT6-8) maintained in medium containing 72 microM EA. Several factors are involved in the increased expression of GST pi in HT6-8. For example, nuclear run-on experiments showed an approximately 2-fold increase in the rate of transcription of GST pi. In addition, the half-life of GST pi transcript was increased from 4.1 (wild type, HT29, HT4-1) to 8.4 hr. The half-life of GST pi protein was 1-2 hr in HT4-1 cells versus 8-9 hr in HT6-8 cells. When either human ovarian carcinoma cells (SKOV3) or human prostatic carcinoma cells (DU145) were treated with EA, the half-life of the GST pi transcript was also increased. The transcript half-lives of another thiol-metabolism enzyme, gamma-glutamylcysteine synthetase (gamma-GCS), and a phase II detoxification enzyme, dihydrodiol dehydrogenase (DDH), were also increased in HT6-8, SKOV3 and DU145 cells treated with EA. However, the half-lives of transcripts from "housekeeping genes," such as glyceraldehyde 3-phosphate dehydrogenase (G3PDH), beta-actin and beta-tubulin, were not changed in these cell lines following EA. Apparently, a number of coordinated factors are involved in EA-enhanced expression of GST pi and other detoxification enzymes.
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PMID:Influence of ethacrynic acid on glutathione S-transferase pi transcript and protein half-lives in human colon cancer cells. 748 39

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