EC:3.6.3.44 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.44 (P-glycoprotein)
13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of P-glycoprotein (P-gp), the product of multidrug resistance gene(s), was investigated in primary cultures of normal adult rat hepatocytes. Levels of P-gp mRNAs determined by Northern blotting and of P-gp measured by immunoblotting increased in parallel with time in culture. As in normal liver, P-gp was found to be localized on the membrane of bile canaliculus-like structures. This increased expression of P-gp was associated with decreased intracellular retention of doxorubicin, which could be restored by compounds such as verapamil and cyclosporin; doxorubicin (and also vincristine) was more cytotoxic to early than to late cultures. As in preneoplastic and neoplastic liver, overexpression of P-gp in cultured hepatocytes was associated with differential changes in drug-metabolizing enzymes, including increased glutathione S-transferase 7-7. Functional P-gp over-expression was observed in the absence of xenobiotic exposure or cell division; it could be linked to cellular stress occurring during cell isolation and plating. Increased expression of P-gp was blocked by actinomycin D, indicating its dependence on increased transcription, while cycloheximide led to a superinduction suggesting negative regulation by a protein factor.
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PMID:Overexpression of the multidrug resistance gene product in adult rat hepatocytes during primary culture. 134 83

Increased expression of multidrug-resistance (mdr) gene transcripts and of the encoded protein, P-glycoprotein, is found in many types of tumors. The biological significance of mdr overexpression during the stepwise process of neoplastic development, however, is not well understood. To assess the possible significance of mdr overexpression in carcinogenesis, we examined the cellular distributions of both mdr gene transcripts and P-glycoprotein during hepatocarcinogenesis induced in rats by the Solt-Farber protocol and then compared them to the distributions of the placental form of glutathione S-transferase (GST-P), a known marker of preneoplastic and neoplastic lesions in the liver. In situ hybridization and immunohistochemical techniques were employed. Neither mdr transcripts nor P-glycoprotein was expressed in oval cells that appeared early in the carcinogenic process. GST-P was strongly expressed in the early focal lesions, whereas the levels of mdr transcripts and P-glycoprotein expressed were low and heterogeneous. Expression of mdr transcripts and P-glycoprotein was increased and became more uniform in hyperplastic nodules and carcinomas, although considerable heterogeneity of expression was still found, particularly at the nodular stage. These data suggest that increased expression of mdr is associated with later stages of neoplastic development in the liver. Furthermore, that no chemical treatment of the animals was employed when the expression of mdr was increasing in the preneoplastic and neoplastic lesions suggests that the enhanced mdr expression is intrinsic to the carcinogenic process.
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PMID:Cellular pattern of multidrug-resistance gene expression during chemical hepatocarcinogenesis in the rat. 135 97

Gene amplification is responsible both for dihydrofolate reductase induced methotrexate resistance, and for the P-glycoprotein encoding multigene family induced multidrug resistance. The 6 pairs of hydrophobic regions of the P-glycoprotein fold up in a snake-like structure through the lipidic layers of the cell membrane. Other detoxification mechanisms include the glutathione S-transferase 'pi', but without gene amplification.
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PMID:Genetic aspects of multidrug resistance. 136 27

Mechanisms of multidrug resistance were studied in murine leukemia (L 1210) and sarcoma (Sa 180) tumors after pretreatment with anthracyclines in vivo. Despite identical pretreatment protocols, a considerable difference in the level of resistance between L 1210 and Sa 180 tumors was noted (for doxorubicin: 45-fold versus 340-fold; for daunorubicin: 51-fold versus 275-fold). However, no difference in mdr 1 gene-amplification and the overexpression of mdr 1-RNA or P-glycoprotein was demonstrated. None of these parameters did increase by further treatment with a higher concentration of anthracyclines. Resistant sublines of Sa 180 revealed an overexpression of glutathione S-transferase-pi (GST-pi) in comparison to the parental line, whereas in sensitive and resistant sublines of L 1210 tumors the expression of GST-pi was similar. In order to study whether trifluoperazine can reverse the P-glycoprotein mediated component of multidrug resistance, trifluoperazine and doxorubicin were tested in vitro in L 1210 and Sa 180 cells. In contrast to the complete reversal of resistance in L 1210 tumors, resistance in Sa 180 was only partly circumvented. However, by buthionine sulfoximine treatment, the toxicity of multidrug resistant Sa 180 tumors could be increased. It was possible to reverse the resistance of Sa 180 tumors completely by trifluoperazine plus buthionine sulfoximine. Thus, multidrug-resistant Sa 180 tumors express different defense mechanisms whereas L 1210 tumors express only one defense mechanism (P-glycoprotein).
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PMID:Resistance mechanisms in murine tumors with acquired multidrug resistance. 144 88

Ninety-four human non-small cell lung carcinomas (NSCLC) of previously untreated patients were analysed for the presence of P-glycoprotein (P-170) and glutathione S-transferase-pi (GST-pi) by means of immunohistochemistry. The expression of P-170 and GST-pi was compared with the results of doxorubicin resistance of the tumours in vitro and the smoking habits of the patients. A significant relationship between smoking habits of the patients and resistance of NSCLC was found (P = 0.007). Of the 72 tumours of smokers 57 (= 79%) were resistant, whereas of the 22 tumours of non-smokers only 11 (= 50%) showed resistance. Identical results were obtained when the analysis was restricted to patients with epidermoid lung carcinomas (P = 0.004). In contrast to these data, there exists no relationship between resistance and smoking for adenocarcinomas of the lung. Forty-two (= 58%) out of the 72 NSCLC of smokers expressed P-170, whereas out of 22 tumours of non-smokers only two tumours (= 9%) showed P-170 expression (P less than 0.0001). Similar results were obtained with epidermoid carcinomas (P = 0.004) and adenocarcinomas (P = 0.027). Fifty (= 69%) of 72 NSCLC of smokers revealed expression of GST-pi, whereas only nine (= 41%) of 22 tumours of non-smokers showed GST-pi expression (P = 0.015). Significant correlations also exist between resistance in vitro and expression of P-170 (P less than 0.0001) or expression of GST-pi (P less than 0.0001). Furthermore, a significant relationship between both proteins could be demonstrated (P less than 0.0001).
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PMID:Overexpression of P-glycoprotein and glutathione S-transferase-pi in resistant non-small cell lung carcinomas of smokers. 168 Mar 67

In a P-glycoprotein-negative cell line, GLC4-Adr90, a 75-fold acquired Adriamycin (Adr) resistance coincided with a reduced cellular Adr level, an increased detoxifying capacity (glutathione (GSH) and glutathione S-transferase (GST) elevated), and a reduced topoisomerase-II (topo-II) activity compared with the parent cell line GLC4. The effect on Adr resistance of buthionine sulfoximine (BSO, GSH synthesis inhibitor), was studied alone or in combination with verapamil (drug-efflux inhibitor), docosahexaenoic acid (membrane lipid domain affector), ethacrynic acid (GST inhibitor), aphidicolin (DNA-polymerase-alpha inhibitor) or novobiocin (NOV, topo-II inhibitor). Cytotoxicity was tested using a microculture tetrazolium assay. In GLC4-Adr90, BSO and NOV increased Adr-induced cytotoxicity 12.9-fold and 1.8-fold respectively. The combination of BSO plus NOV showed an additive effect, decreasing the Adr resistance factor from 75 to 2.7. Combination of modulators of Adr resistance directed at different resistance mechanisms appears promising in vitro.
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PMID:Combined in vitro modulation of adriamycin resistance. 168 Aug 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

A B16 melanoma line was repeatedly transplanted subcutaneously in C57BL/6 mice. On day 4 after every transplant, the animals were treated with doxorubicin (DXR), 10 mg/kg i.p. The aim of the work was to develop an in-vivo model of resistance to the antiblastic in order to analyze some possible mechanistic aspects of the process in the course of time. After 16 transplants and treatments the melanoma completely lost its sensitivity to the antiproliferative effects of maximal tolerated doses of DXR and showed over-expression of P-glycoprotein. Compared to the parental line, the in vitro resistance index was 4.6. After 27 transplants and treatments the melanoma did not increase its in vitro resistance to DXR further, and this resistance was completely reversed by verapamil. The behavior of the antioxidant defenses (superoxide dismutase, catalase, glutathione peroxidase, glutathione transferase, glutathione reductase and glutathione) was evaluated after 4, 16 and 27 transplants and treatments with DXR. At no stage did the treated melanoma show any variation in the antioxidant enzymes. Compared to the parental counterpart its glutathione levels were elevated after four treatments (+80%), when, however, the line was still sensitive to the in vivo effects of DXR, and after 16 treatments (+30%). Instead, no variation of the glutathione content was seen after 27 treatments with DXR. These results seem to exclude the possibility that the antioxidant defenses play a major role in the resistance of this B16 melanoma line to DXR. On the other hand, the low but, however, 'clinically' significant resistance of the tumor to the antiblastic seems mainly related to the mechanisms linked to the P-glycoprotein over-expression.
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PMID:Antioxidant defenses in a B16 melanoma line resistant to doxorubicin: an in vivo study. 168 13

Following EMS mutagenesis, three estramustine (EM) resistant DU 145 human prostatic carcinoma cell lines were clonally selected by exposure to incrementally increasing concentrations of the drug. Although only low levels of resistance (approximately 3-fold) were attainable, this resistance was stable in the absence of continuous drug exposure. These EM-resistant clones (EMR 4,9,12) did not exhibit cross resistance to vinblastine, taxol, or adriamycin, and had collateral sensitivity to cytochalasin B. None of the lines had elevated expression of P-glycoprotein mRNA or glutathione S-transferase activity, suggesting a phenotype distinct from the classic multi-drug resistance phenotype. This conclusion was supported further by the observation that two MDR cell lines (FLC mouse erythroleukaemic and SKOV3 human ovarian carcinoma cells) showed sensitivity to EM. Fluorescent activated cell sorting analysis of the effects of EM on cell cycle traverse revealed that at EM concentrations up to 20 microM an increasing percentage of wild type cells were blocked in G2/M; no such effect occurred in EMR lines. Differential interference contrast microscopy was employed to study EM's effect on mitosis. EMR lines were able to form functional, albeit smaller, spindles at EM concentrations that resulted in chromosomal disorganisation and inhibition of mitotic progression in wild type cells. EMR lines were able to progress through mitosis and cytokinesis at the same rate as untreated cells. Tritiated EM was used to evaluate potential drug uptake/efflux mutations in ERM clones. EMR 4 and 9 incorporate less EM than wild type cells; however, they have significantly decreased cellular volumes. The initial efflux rate constants for EMR clones were greater than for wild type cells. Within 5 min greater than 70% of the drug was lost from resistant cells compared to a 50% loss by the wild type. Although the specific mechanisms of resistance have yet to be defined, the lack of collateral resistance to other MDR/anti-microtubule agents could serve as the basis for the clinical use of EM in combination chemotherapy.
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PMID:Resistance to the antimitotic drug estramustine is distinct from the multidrug resistant phenotype. 189 55

H69AR is a multidrug-resistant small cell lung cancer cell line derived from a drug-sensitive cell line, H69, by selection in doxorubicin. It is cross-resistant to a wide variety of natural product-type antineoplastic agents but does not overexpress P-glycoprotein. In the present study, the levels of GSH and GSH-related enzymes in the H69AR cell line were determined and compared with those found in H69 cells. Unlike other drug-resistant cell lines, GSH levels were diminished 6-fold in H69AR cells (0.67 +/- 0.28 microgram/mg of protein), compared with H69 cells (4.23 +/- 1.17 micrograms/mg of protein) (p less than 0.01). This unusually low level of GSH may explain the pronounced collateral sensitivity of H69AR cells to buthionine sulfoximine (BSO), an inhibitor of the rate-limiting enzyme in GSH biosynthesis (ID50 of 4.4 microM BSO for H69AR cells versus ID50 of 300 microM BSO for H69 cells). BSO did not enhance doxorubicin cytotoxicity in the H69AR cell line, despite further depletion of GSH. GSH-reductase (EC 1.6.4.2) activity was elevated 2-fold in H69AR cells, compared with sensitive H69 cells (75.34 +/- 14.94 versus 38.62 +/- 5.06 nmol of NADPH/min/mg of protein) (p less than 0.05). Both selenium-dependent and -independent GSH-peroxidase (EC 1.11.1.9) activities were unchanged in the resistant H69AR cell line, compared with its parent cell line. gamma-Glutamyl transpeptidase (EC 2.3.2.2) activity was 5-fold elevated in H69AR cells, compared with H69 cells (2.50 +/- 0.44 versus 0.46 +/- 0.21 nmol of p-nitroaniline/min/mg of protein) (p less than 0.01), whereas GSH-S-transferase (EC 2.5.1.18) activity was 10-fold higher (201.98 +/- 43.62 versus 19.77 +/- 1.72 nmol of 1-chloro-2,4-dinitrobenzene/min/mg of protein in H69AR and H69 cells, respectively) (p less than 0.01). The GSH-S-transferases from both cell lines were purified by affinity chromatography and immunoblot analysis identified the GSH-S-transferases as belonging to the anionic pi class. GSH-S-transferases from the mu or alpha classes were not detectable in either cell line. In conclusion, marked differences in GSH levels and the activities of three of four GSH-related enzymes were observed between the multidrug-resistant H69AR cell line and its parent cell line. Further study is required to determine whether these changes are causally related to the development of drug resistance in this model system.
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PMID:Alterations in glutathione and glutathione-related enzymes in a multidrug-resistant small cell lung cancer cell line. 196 21

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