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)

Human cells can become multidrug resistant (MDR) by an increase in the activity of the MDR1 P-glycoprotein or by other, as yet unknown mechanisms, referred to as non-P-glycoprotein mediated MDR (non-Pgp MDR). S. P. C. Cole et al. [Science (Washington DC), 258: 1650-1654, 1992] recently reported that in two cell lines non-Pgp MDR was associated with the overexpression of a new putative membrane transporter gene, MRP. Using an RNase protection assay we have analyzed the expression of MRP in non-Pgp MDR sublines of the human lung cancer cell lines SW-1573 (non-small cell lung cancer) and GLC4 (small cell lung cancer). In all of ten SW-1573 derived lines examined the MRP mRNA level was equal to that in the parental line, whereas MRP was 25-fold overexpressed in a resistant subline of GLC4. We conclude that overexpression of MRP cannot account for all forms of non-Pgp MDR.
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PMID:Analysis of the expression of MRP, the gene for a new putative transmembrane drug transporter, in human multidrug resistant lung cancer cell lines. 846 91

Because of the similarities between the cystic fibrosis transmembrane conductance regulator (CFTR) and multidrug resistance (MDR) proteins, recent observations of decreased plasma membrane electrical potential (delta psi) in cells overexpressing either MDR protein or the CFTR, and the effects of delta psi on passive diffusion of chemotherapeutic drugs, we have analyzed chemotherapeutic drug resistance for NIH 3T3 cells overexpressing different levels of functional CFTR. Three separate clones not previously exposed to chemotherapeutic drugs exhibit resistance to doxorubicin, vincristine, and colchicine that is similar to MDR transfectants not previously exposed to chemotherapeutic drugs. Two other clones expressing lower levels of CFTR are less resistant. As shown previously these clones exhibit decreased plasma membrane delta psi similar to MDR transfectants, but four of five exhibit mildly acidified intracellular pH in contrast to MDR transfectants, which are in general alkaline. Thus the MDR protein and CFTR-mediated MDR phenotypes are distinctly different. Selection of two separate CFTR clones on either doxorubicin or vincristine substantially increases the observed MDR and leads to increased CFTR (but not measurable MDR or MRP) mRNA expression. CFTR overexpressors also exhibit a decreased rate of 3H -vinblastine uptake. These data reveal a new and previously unrecognized consequence of CFTR expression, and are consistent with the hypothesis that membrane depolarization is an important determinant of tumor cell MDR.
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PMID:Overexpression of the cystic fibrosis transmembrane conductance regulator in NIH 3T3 cells lowers membrane potential and intracellular pH and confers a multidrug resistance phenotype. 851 88

Multidrug resistance (MDR) is characterized by the overexpression of P-glycoprotein (Pgp), which is responsible for decreasing drug uptake and/or increasing drug efflux in resistant cells. Although Pgp has a broad-spectrum specificity, this protein seems to react preferentially with amphiphilic and cationic molecules. Rhodamine 123 (R123) is widely used as a marker for mitochondria in living cells and its uptake is dependent on plasma and mitochondrial membrane potential. More recently, cross-resistance to R123 in cells resistant to adriamycin has been demonstrated and a correlation between expression of Pgp and reduced intracellular accumulation of R123 has been shown. The measurement of R123 uptake or efflux allows the characterization of cells displaying a MDR phenotype with overexpression of Pgp, even with low levels of resistance. Other proteins have now been identified which play a role in resistance and in drug transport, including MRP. For this reason we need to determine if R123 is transported only by Pgp or if R123 is a substrate for transport by other drug resistance proteins as well. We also discuss the possibilities of using several techniques based on fluorescence with R123 in order to fully characterize cells by measuring both Pgp activity and its presence/localization.
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PMID:[Use of rhodamine 123 for the detection of multidrug resistance]. 853 26

Tumor cell resistance to doxorubicin (DOX) is usually associated with the overexpression of P-glycoprotein (PGP) in model systems. We have characterized the karyotypic changes in two sublines of HL-60 cells which differ in the induction of differentiation by retinoic acid. The parental sublines, designated HL-60A/S and HL-60Y/S, were selected in increasing concentrations of 0.025-0.1 micrograms/mL DOX. Monosomy 8 in HL-60Y/S was the only karyotypic difference prior to DOX exposure. Both sublines acquired 7q+ markers upon exposure to DOX. In HL-60Y/S, and add(7)(q21) replaced one homologue at 0.025 micrograms/mL DOX, and an add(7)(q32) appeared which replaced the other normal 7 at 0.05 micrograms/mL DOX. The HL-60A/S cells acquired an add(7)(q21) at 0.025 micrograms/mL DOX. The 7q+ abnormalities involved breakpoints in the midregion of 7q. The overexpression of phosphorylated PGP in immunoprecipitates with C-219 antibody was identified in both sublines of DOX-resistant HL-60 cells with 7q+ abnormalities, and this is consistent with the location of mdr-1 sequences to 7q21-21.1. Also, analysis of RNA from parental-sensitive and DOX-resistant sublines by reverse transcriptase-polymerase chain reaction revealed: a) comparable expression of multidrug resistance related protein (MPR) in sensitive and resistant sublines; and b) overexpression of mdr-1 only in the DOX-resistant sublines. Thus, the selection of DOX resistance in two sublines of HL-60 cells which differ in their response to retinoic acid-induced myeloid differentiation is reproducibly associated with overexpression of mdr-1 versus MRP.
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PMID:Acquisition of doxorubicin resistance in human leukemia HL-60 cells is reproducibly associated with 7q21 chromosomal anomalies. 860 35

Expression of the MRP gene has been demonstrated in vitro to be a casual factor in non-P-glycoprotein-mediated multidrug resistance, and is implicated in resistance to a number of the chemotherapeutic agents currently used in the treatment of high-grade transitional cell carcinoma (TCC) of the bladder (doxorubicin, epirubicin and vinblastine). Using a sensitive RT-PCR-based technique, we have quantified MRP mRNA levels in a series of untreated TCC (n=24), normal bladder (n=5) and control tissue and cell line samples. MRP mRNA was widely expressed and detectable in all samples analysed, with considerable (up to 190-fold) variation observed between individual tumour samples. MRP mRNA levels found in TCC samples were lower than those determined for normal peripheral mononucleocyte (2.3-fold) and testis (4.1-fold) samples, previously reported to be high-expressing tissues, and varied over a similar range to that observed in normal bladder samples. Results indicate that MRP mRNA levels in a greater proportion of high-grade (G3) bladder tumours (55%, 6/11) are significantly reduced (P=0.018) compared with low- and moderate-grade (G1/2) bladder tumours (8%, 1/13), and suggest that MRP mRNA levels frequently become reduced as a consequence of tumour progression to advanced, poorly differentiated disease. No correlation was apparent between MRP and MDR1 mRNA levels, thus providing no evidence to suggest common regulation of the two genes. In a limited number of patients, no evidence was found to support a role for MRP mRNA levels as a determinant of response to chemotherapy in patients being uniformly treated with either cisplatin-methotrexate-vinblastine (n=6) or epirubicin-cisplatin-methotrexate (n=4) regimens. Similarly, no overall pattern of altered MRP mRNA expression was observed following chemotherapy in four patients from whom post chemotherapy biopsies were taken. This study provides a useful pilot investigation regarding the level, variation and pattern of MRP mRNA expression in TCC of the bladder, and suggests that further studies to establish the clinical significance of these variations are required.
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PMID:Alterations in expression of the multidrug resistance-associated protein (MRP) gene in high-grade transitional cell carcinoma of the bladder. 860 4

Inhibitors of P-glycoprotein (P-gp) or chemosensitizers, such as verapamil, are used to reverse multi-drug resistance (MDR) in cancer patients. Clinical studies in patients with myeloma have shown that some patients with P-gp-positive cancer cells respond to the chemosensitizing effect of verapamil. However, this response is short-lived and tumor cells ultimately become resistant to chemosensitizers. To study mechanisms of resistance to chemosensitizers, a human myeloma cell line, 8226/MDR10V, was selected from a P-gp-positive cell line, 8226/Dox40, in the continuous presence of doxorubicin and verapamil. MDR10V cells are consistently more resistant to MDR drugs than parent cells, Dox40. Chemosensitizers, including verapamil and cyclosporin A, were less effective in reversing resistance in MDR10V compared with Dox40 cells. Verapamil and cyclosporin A were only partially effective in blocking P-gp drug efflux in MDR10V compared to Dox40 cells. Despite higher resistance to cytotoxic agents, MDR10V cells express less P-gp in the plasma membrane than do its parent cells, Dox40. [3H]Azidopine photoaffinity labeling of P-gp and its binding competition with unlabeled verapamil showed similar affinity for P-gp between Dox40 and MDR10V cell lines. Non-P-gp-mediated mechanisms of drug resistance, including over-expression of MRP and alterations in topoisomerase II, were not different for MDR10V cells compared with Dox40 cells.
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PMID:Resistance to the chemosensitizer verapamil in a multi-drug-resistant (MDR) human multiple myeloma cell line. 863 66

Selection protocols were designed to determine whether non-cytotoxic chemomodifiers can influence the evolution of the drug-resistant phenotype. To this end, the human multiple myeloma cell line RPMI 8226 (8226/S) was selected with either doxorubicin, verapamil or doxorubicin plus verapamil. Using this approach low-level multi-drug-resistant (MDR) cell lines were obtained when 8226/S was selected with doxorubicin only or doxorubicin plus verapamil but not with verapamil only. The MDR phenotypes obtained were mechanistically distinct. In doxorubicin only-selected cells (8226/dox4), drug resistance was mediated by over-expression of the MDR1 gene and its cognate protein P-glycoprotein. In contrast, the drug resistance seen in the doxorubicin plus verapamil-selected cells was mediated through decreases in topoisomerase II protein levels and catalytic activity and not by P-glycoprotein over-expression. Cells selected with verapamil alone did not become resistant to any of the drugs tested. None of the 3 selected cell lines showed any changes in MRP gene expression when compared with 8226/S. Our results indicate that the inclusion of verapamil during drug selection with doxorubicin influences the drug-resistant phenotype by preventing the selection of MDR1/P-glycoprotein-positive cells.
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PMID:Verapamil suppresses the emergence of P-glycoprotein-mediated multi-drug resistance. 863 68

The human multidrug resistance-associated protein MRP confers resistance to various cytotoxic drugs by lowering the intracellular drug concentration. Recent evidence indicates that MRP can also transport glutathione S-conjugates across membranes. To study the transport properties of MRP in intact cells, we have expressed human MRP cDNA in the polarized pig kidney epithelial cell line LLC-PK1. MRP mainly localized to the basolateral plasma membrane of these cells, and not to the apical membrane, as determined by immunocytochemistry using confocal laser scanning and electron microscopy. In accordance with this localization, MRP caused increased transport of the glutathione S-conjugate S-(2, 4-dinitrophenyl)-glutathione and of the anticancer drug daunorubicin to the basal side of the epithelial cell layer. Sulfinpyrazone and probenecid, known inhibitors of multispecific organic anion transport, inhibited this basolateral transport, but not the apical transport of daunorubicin mediated by the apically localized human MDR1 P-glycoprotein in MDR1-transfected LLC-PK1 cells. Probenecid and sulfinpyrazone may therefore be useful lead compounds for the development of clinical reversal agents specific for MRP-mediated drug resistance.
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PMID:Basolateral localization and export activity of the human multidrug resistance-associated protein in polarized pig kidney cells. 863 32

MRP is a recently isolated ATP-binding cassette family transporter. We previously reported transfection studies that established that MRP confers multidrug resistance [Kruh, G. D., Chan, A., Myers, K., Gaughan, K., Miki, T. & Aaronson, S. A. (1994) Cancer Res. 54, 1649-1652] and that expression of MRP is associated with enhanced cellular efflux of lipophilic cytotoxic agents [Breuninger, L. M., Paul, S., Gaughan, K., Miki, T., Chan, A., Aaronson, S. A. & Kruh, G. D. (1995) Cancer Res. 55, 5342-5347]. To examine the biochemical mechanism by which MRP confers multidrug resistance, drug uptake experiments were performed using inside-out membrane vesicles prepared from NIH 3T3 cells transfected with an MRP expression vector. ATP-dependent transport was observed for several lipophilic cytotoxic agents including daunorubicin, etoposide, and vincristine, as well as for the glutathione conjugate leukotriene C4 (LTC4). However, only marginally increased uptake was observed for vinblastine and Taxol. Drug uptake was osmotically sensitive and saturable with regard to substrate concentration, with Km values of 6.3 microM, 4.4 microM, 4.2 microM, 35 nM, and 38 microM, for daunorubicin, etoposide, vincristine, LTC4, and ATP, respectively. The broad substrate specificity of MRP was confirmed by the observation that daunorubicin transport was competitively inhibited by reduced and oxidized glutathione, the glutathione conjugates S-(p-azidophenacyl)-glutathione (APA-SG) and S-(2,4-dinitrophenyl)glutathione (DNP-SG), arsenate, and the LTD4 antagonist MK571. This study establishes that MRP pumps unaltered lipophilic cytotoxic drugs, and suggests that this activity is an important mechanism by which the transporter confers multidrug resistance. The present study also indicates that the substrate specificity of MRP is overlapping but distinct from that of P-glycoprotein, and includes both the neutral or mildly cationic natural product cytotoxic drugs and the anionic products of glutathione conjugation. The widespread expression of MRP in tissues, combined with its ability to transport both lipophilic xenobiotics and the products of phase II detoxification, indicates that the transporter represents a widespread and remarkably versatile cellular defense mechanism.
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PMID:ATP-dependent uptake of natural product cytotoxic drugs by membrane vesicles establishes MRP as a broad specificity transporter. 955 31

Multifactorial resistance is the main mechanism of chemotherapy failure in cancers. Multidrug resistance (MDR) is related to the expression of a 170 kDa membrane glycoprotein, the so-called P-glycoprotein (P-gp). This protein is able to extrude drugs of various structures and mechanisms out of the cytoplasm. P-gp is a pronostic value in hemopathy as well as in child sarcoma, osteosarcoma and neuroblastoma. Modulator agents of different generations are capable of inhibiting P-gp. MDR modulation is obtained in hemopathies and is associated with an eradication of the P-gp (+) cell clones. In solid tumors, clinical trials using verapamil or cyclosporin are not so convincing. It is likely that other mechanisms of resistance are responsible for tumor progression, such as the MRP system, glutathion and topoisomerases. A better knowledge of multifactorial resistance and drug synthesis counteracting these resistance mechanisms will allow to elaborate new therapeutic basis for cancer therapy.
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PMID:[MDR (Multiple Drug Resistant) type of resistance to chemotherapy in clinical practice]. 886 40

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