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)

The characteristics of volume-activated chloride currents, drug transport function and levels of P-glycoprotein (PgP) expression were compared between two human chronic erythroleukemia cell lines: a parental (K562) cell line and a derivative obtained by vinblastine selection (K562 VBL400). Parental K562 cells showed no detectable P-glycoprotein expression, measured at the protein level (immunofluorescence labeling with monoclonal antibodies), and had very low levels of MDR-1 mRNA expression (RT-PCR analysis), when compared with levels measured in K562 VBL400. Differences in Pgp-mediated transport were estimated by comparing the rates of Fluo3 accumulation. The higher drug-transport function of K562 VBL400 cells (e.g., lower Fluo3 accumulation) correlated with their elevated levels of MDR-1. The rate of dye transport was sensitive to verapamil but was not affected by the tonicity of the extracellular medium. In contrast to the clear differences in transport function, the characteristics of chloride currents induced by cell swelling were indistinguishable between the two cell lines. Currents measured in the whole-cell configuration were outwardly rectifying, had a higher permeability to iodide than to chloride (SCN- > I- > Cl- > gluconate), were potently blocked by NPPB and were unresponsive to verapamil. The percentage of responding cells and the mean current density were nearly identical in both cell lines. In addition, activation of the volume-sensitive current was not prevented during whole-cell recordings obtained with pipettes containing high concentration of cytotoxic drugs (vincristine or vinblastine). These results do not lend support to the previously reported association between Pgp expression and volume-sensitive chloride channels, and suggest that a different protein is responsible for this type of chloride channel in K562 cells.
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PMID:Drug-transport and volume-activated chloride channel functions in human erythroleukemia cells: relation to expression level of P-glycoprotein. 763 88

We have analysed the contribution of several parameters, e.g. drug accumulation, MDR1 P-glycoprotein (P-gp), multidrug resistance-associated protein (MRP) and topoisomerase (topo) II, to drug resistance in a large set of drug-resistant variants of the human non-small-cell lung cancer cell line SW-1573 derived by selection with low concentrations of doxorubicin or vincristine. Selection with either drug nearly always resulted in MDR clones. The resistance of these clones could be explained by reduced drug accumulation and was associated with a decrease rather than an increase in the low MDR1 mRNA level. To test whether a decrease in MDR1 mRNA indirectly affected resistance in these cells, we introduced a MDR1-specific hammerhead ribozyme into wild-type SW-1573 cells. Although this led to a substantial reduction in MDR1 mRNA, it did not result in resistance. In all resistant clones we found an altered form of the multidrug resistance-associated protein (MRP), migrating slightly slower during SDS-polyacrylamide gel electrophoresis than MRP in parental cells. This altered MRP was also present in non-P-gp MDR somatic cell hybrids of the SW-1573 cells, demonstrating a clear linkage with the MDR phenotype. Treatment of crude cellular membrane fractions with N-glycanase, endoglycosidase H or neuraminidase showed that the altered migration of MRP on SDS-PAGE is due to a post-translational modification. There was no detectable difference in sialic acid content. In most but not all doxorubicin-selected clones, this MDR phenotype was accompanied by a reduction in topo II alpha mRNA level. No reduction was found in the clones selected with vincristine. We conclude from these results that selection of the SW-1573 cell line for low levels of doxorubicin or vincristine resistance, predominantly results in MDR with reduced drug accumulation associated with the presence of an altered MRP protein. This mechanism can be accompanied by other resistance mechanisms, such as reduced topo II alpha mRNA in case of doxorubicin selection.
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PMID:Altered MRP is associated with multidrug resistance and reduced drug accumulation in human SW-1573 cells. 764 Feb 9

Improved understanding of the mechanisms underlying chemotherapeutic failure has led to new strategies to circumvent drug resistance. Expression of the multidrug transporter, P-glycoprotein (P-gp), is likely to be a significant mechanism contributing to the clinical resistance of some cancers to chemotherapy. Phase I trials of currently available MDR modulators have yielded important pharmacologic principles pertaining to normal tissue P-gp function and its influence on the disposition of MDR-related anticancer drugs. Currently available P-glycoprotein inhibitors lack the potency to completely reverse the MDR phenotype at clinically achievable concentrations. Despite this, encouraging clinical results have been obtained in the hematolymphoid malignancies. As these more potent modulators become available, careful characterization of pharmacologic interactions with MDR-related cytotoxins will be critical to the rational design of Phase II and III studies that will ultimately test the efficacy of MDR modulation.
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PMID:Clinical studies with modulators of multidrug resistance. 764 68

The purpose of this study was to determine what proportion of drug resistance of MDR cell variant K562/Dox was attributed to the reduced steady state intracellular drug accumulation related to overexpression of P-glycoprotein. K562/Dox was derived from repeated exposure of human erythroleukaemic cell line K562 cell to doxorubicin. As assessed with MTT assay, the resistance of K562/Dox to 7 cytotoxic drugs increased variably in the range between 1200 and 11 folds. K562/Dox cells were positively stained with anti-human p-glycoprotein monoclonal antibody JSB-1, indicating overexpression of P-gp. Intracellular drug accumulation in K562/Dox, though significantly reduced as compared with that in K562 cells, was maximally restored by concurrent exposure of cells to 6 mumol/L verapamil and 1.72 mumol/L either of the doxorubicin, epirubicin or daunorubicin. Similar results were obtained by exposure of cells to 12 mumol/L verapamil and 8.62 mumol/L drug, indicating that restoration of intracellular drug accumulation in MDR cells was dependent on the relative concentrations of verapamil to drug. However, the resistances of K562/Dox cells to epirubicin and daunorubicin still remained for about 5.6 and > 6.6 folds, respectively, even at verapamil concentration of 6 mumol/L, suggesting at least a relatively big fraction of drug resistance was not directly related to the altered cellular pharmacokinetics associated with overexpression of P-glycoprotein.
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PMID:[Reduced intracellular drug accumulation related to overexpression of P-glycoprotein cannot explain the complete drug resistance in MDR cell variant K562/Dox]. 765 12

A multidrug-resistant cell line (A2780/ADM) of human ovarian carcinoma which can resist 0.8 microgram.ml-1 of adriamycin (ADM) was obtained by step-wise selection exposure to increasing doses of ADM. A2780/ADM cells showed 17-fold higher resistance to ADM than A2780 cells. The doubling times were 43.8 h in A2780/ADM and 26.3 h in A2780 cells. Colony formation rates were 15%-20% in A2780/ADM and 65%-75% in A2780 cells. A2780/ADM cell line was also shown to significantly cross-resistant to vincristine (VCR) and VP-16, but no cross-resistance was found to 5-Fu, PDD or Mel. A further investigation showed that intracellular accumulation of ADM in A2780/ADM was significantly decreased. Expressions of P-glycoprotein and GST-pi were increased in A2780/ADM by means of immunohistochemical method. Verapamil (Ver) combined with ADM was found to increase the sensitivity and reverse the resistance to ADM in A2780/ADM. This study indicates that A2780 ADM has the peculiarity of multidrug resistance and there may be other mechanism of drug-resistance besides MDR related to P-170.
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PMID:[Establishment of adriamycin-resistant human ovarian carcinoma cell line and its mechanism of multidrug resistance]. 766 Jul 93

The ability of the anti-oestrogens tamoxifen, toremifene and their 4-hydroxy and N-desmethyl metabolites to modify doxorubicin (dox) toxicity to intrinsically resistant and multidrug resistant cell lines was compared, using human breast and lung cancer, and Chinese hamster ovary cell lines. The anti-oestrogens significantly enhanced dox toxicity to multidrug resistant, P-glycoprotein-positive cell lines, but did not affect toxicity to intrinsically resistant, P-glycoprotein-negative cells. Modification was observed at clinically achievable anti-oestrogen concentrations. Toremifene and tamoxifen would therefore appear to be good candidates for in vivo studies as MDR modulating agents in selected patients with P-glycoprotein-positive tumours.
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PMID:Differential modulation of doxorubicin toxicity to multidrug and intrinsically drug resistant cell lines by anti-oestrogens and their major metabolites. 768 15

Resistance to chemotherapeutic agents in neoplastic cells is often mediated by expression of P-glycoprotein, which functions as a drug-efflux pump for a broad range of substrates. We have used a combination of patch clamp and video-imaging techniques to examine the expression and drug-efflux function of P-glycoprotein and to determine the possible correlation with swelling-activated chloride channels in drug-sensitive and -resistant cell lines. Two pairs of cell lines were used in these experiments: (a) control NIH-3T3 cells and a corresponding MDR1-transfectant; and (b) control 8226 myeloma cells and a derivative cell line selected for resistance to chemotherapeutic agents. Control cells lacked detectable P-glycoprotein expression based on Western blotting, immunofluorescence staining with a specific monoclonal antibody, and a functional assay of rhodamine-123 (R123) efflux. Resistant cells expressed P-glycoprotein at high levels and rapidly exported R123. During whole-cell recording using either hyperosmotic pipette solution or hypoosmotic Ringer solution, cell swelling was accompanied by Cl- channel opening in all four cell lines. The rates of induction, biophysical properties and magnitudes of Cl conductance (gCl) were indistinguishable between control and corresponding multidrug-resistant cells: gCl reached 0.96 +/- 0.31 (n = 14) and 0.83 +/- 0.31 nS/pF (mean +/- SD; n = 31) in NIH-3T3 and NIH-3T3/MDR cells, respectively; and 0.31 +/- 0.20 (n = 9) and 0.37 +/- 0.22 nS/pF (n = 7) in 8226 and 8226/Dox40 cells, respectively. gCl exhibited moderate outward rectification in symmetrical Cl- solutions, with a rectification ratio of 1.4 at +/- 50 mV. Cl- channels slowly closed during strong depolarization beyond +60 mV. Using video-imaging techniques with SPQ as a fluorescent probe, we monitored Cl(-)-channel opening in intact drug-sensitive and -resistant cells. gCl, measured either with whole-cell recording or SPQ imaging, was blocked by DIDS (voltage-dependent Kd < 50 microM at +40 mV), NPPB (Kd approximately 30 microM), and tamoxifen (complete and irreversible block approximately 10 microM). None of these blockers inhibited R123 efflux. NPPB accelerated R123 efflux, an effect that was mimicked by CCP, a mitochondrial uncoupler. In contrast, verapamil selectively blocked R123 efflux (Kd = 0.3 to 0.5 microM); 10 microM left gCl unaltered. Induction of gCl was not affected by vincristine or doxorubicin in the pipette solution. Moreover, the rate of R123 efflux did not change during cell swelling. We conclude that P-glycoprotein and swelling-activated chloride channels function independently and are separable by expression and by pharmacological sensitivities.
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PMID:Swelling-activated chloride channels in multidrug-sensitive and -resistant cells. 769 67

Multidrug resistance to a variety of cytotoxic drugs is due to decreased drug accumulation at the intracellular site of drug action. When due to increased energy-dependent drug efflux, this transport change is often associated with increased expression of an efflux pump for various lipophilic compounds, for example the P-glycoprotein which is the product of the MDR-1 gene. However, previously described HL-60 human promyelocytic leukemia cell lines resistant to the cytotoxic effect of anthracyclines have been reported not to express P-glycoprotein. We have isolated, by drug selection, an anthracycline-resistant HL-60 cell line that, in comparison to parental drug sensitive cells, exhibits a multidrug resistant phenotype including diminished intracellular drug retention, cross-resistance to multiple cytotoxic drugs, increased expression of a monoclonal antibody C219-reactive 180 kDa P-glycoprotein detected by Western blot analysis as well as increased expression of MDR-1 mRNA as determined by Northern blot and solution hybridization/RNAse protection analyses. Evidence is presented that the anthracycline-resistant HL-60 cells have amplified the MDR-1 gene.
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PMID:Characterization of an anthracycline-resistant human promyelocyte leukemia (HL-60) cell line with an elevated MDR-1 gene expression. 770 33

Studies with inside-out plasma membrane vesicles from multidrug-resistant (MDR 3) murine erythroleukemia (MEL/VCR-6) cells have provided evidence for down-modulation of P-glycoprotein (P-gp) function by Ca(2+)-calmodulin (CLM). These studies showed that CLM in the presence or absence of Ca2+ had no effect on binding of [3H]vinblastine (VBL) by P-gp in inside-out plasma membrane vesicles. However, profound inhibition of ATP-dependent [3H]VBL efflux by these vesicles was demonstrated by the addition of subnanomolar concentrations of CLM (IC50 = 0.15 +/- 0.02 nM). The addition of 1 microM Ca2+ reduced the inhibition of [3H]VBL efflux by CLM, shifting the concentration required for inhibition to the nM range (IC50 = 2.55 +/- 0.35 nM). The inhibition of as 0.01 mM Ca2+, and no inhibition occurred with concentrations greater than 0.2 mM Ca2+. Binding of CLM, itself, to P-gp was demonstrated in two ways. The P-gp content of detergent-solubilized plasma membrane from MEL/VCR-6 cells could be appreciably depleted by treating this material with CLM-Sepharose beads as shown by SDS-polyacrylamide gel electrophoresis (PAGE) and Western blotting with anti-P-gp antibody (C219) before and after CLM-Sepharose treatment. Also, depletion of P-gp from solution by CLM was less in the presence of 1 mM Ca2+. Blotting of P-gp after SDS-PAGE of plasma membrane from MEL/VCR-6 cells was also obtained using 125I-CLM as a probe. These results strongly suggest that the MDR 3 homolog of P-gp is a CLM-binding protein and that direct interaction of Ca(2+)-CLM with P-gp, while not affecting its binding of [3H]VBL, down-modulates the translocation of this agent in the presence of ATP.
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PMID:Functional modulation of multidrug resistance-related P-glycoprotein by Ca(2+)-calmodulin. 774 32

Resistance to cytotoxic chemotherapy continues to be a major obstacle to more effective treatment of human cancers. A particular problem in clinical cancer chemotherapy is the phenomenon of simultaneous resistance of cancers to a variety of unrelated cytotoxic agents. Such resistance to multiple drugs is observed much more often than resistance to individual compounds. A similar experimental phenomenon has been termed multidrug resistance or MDR. Much has been learned in recent years about molecular mechanisms which can lead to MDR in cancer cells and a number of studies has been performed to evaluate the clinical relevance of such mechanisms. In particular, P-glycoprotein-associated MDR (MDR1) has received a lot of attention. This review will discuss (i) some principal aspects of drug resistance in cancer with particular emphasis on MDR1; (ii) available data on drug resistance mechanisms in brain tumors; and (iii) our current knowledge on the putative role of P-glycoprotein in the blood-brain barrier.
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PMID:Multidrug resistance in human cancer. 776 Jan 1

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