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)

We have investigated the polarity of the efflux of the intracellular pH fluorochrome 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) from layers of epithelial Madin-Darby canine kidney (MDCK, Strains I and II) and human intestinal (Caco-2, HCT-8 and T84) cells grown on porous membranes. In Strain I MDCK cells, BCECF efflux was effectively reduced by indomethacin (50% inhibition with 100 microM) and 5-nitro-2-(3-phenylpropyl-amino)-benzoate (NPPB; 50% inhibition with 10 microM). Replacement of external Cl- with bromide, iodide or nitrate did not alter BCECF efflux, while substitution with methanesulphonate resulted in a small but significant reduction. All five cell lines form confluent epithelial layers when grown on porous membranes. Efflux of BCECF from Strain I MDCK epithelial layers into the apical solution was approximately three times greater than into the basal solution. Addition of indomethacin to the apical solution attenuated efflux into the apical but not the basal solution, while basal indomethacin was effective against basal efflux. NPPB has a similar specificity of action. Adrenaline, a stimulant of electrogenic Cl- secretion, did not alter the pattern of BCECF efflux. BCECF efflux was also polarized, with apical efflux greater than basal efflux, in MDCK Strain II and Caco-2 epithelial layers. In contrast, BCECF efflux into the basal and apical media was equivalent in layers formed from HCT-8 and T84 cells. However, indomethacin reduced efflux in all five epithelial lines, although the relative sensitivities of the apical and basal efflux rates to indomethacin varied, as did the sensitivity to the sidedness of application of indomethacin. In MDCK and HCT-8 epithelial layers, transepithelial vinblastine secretion mediated by P-glycoprotein was not inhibited by indomethacin. The data are consistent with the hypothesis that BCECF efflux is a manifestation of a novel ATP-dependent xenobiotic secretory efflux mechanism in renal and gastrointestinal epithelia. The factors regulating the polarity of BCECF efflux, both the indomethacin-sensitive and -insensitive components, have yet to be elucidated.
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PMID:Polarized efflux of 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein from cultured epithelial cell monolayers. 151 Jun 94

We have recently reported that expression in yeast cells of P-glycoprotein (P-gp) encoded by the mouse multidrug resistance mdr3 gene (Mdr3) can complement a null ste6 mutation (M. Raymond, P. Gros, M. Whiteway, and D. Y. Thomas, Science 256:232-234, 1992). Here we show that Mdr3 behaves as a fully functional drug transporter in this heterologous expression system. Photolabelling experiments indicate that Mdr3 synthesized in yeast cells binds the drug analog [125I]iodoaryl azidoprazosin, this binding being competed for by vinblastine and tetraphenylphosphonium bromide, two known multidrug resistance drugs. Spheroplasts expressing wild-type Mdr3 (Ser-939) exhibit an ATP-dependent and verapamil-sensitive decreased accumulation of [3H]vinblastine as compared with spheroplasts expressing a mutant form of Mdr3 with impaired transport activity (Phe-939). Expression of Mdr3 in yeast cells can confer resistance to growth inhibition by the antifungal and immunosuppressive agent FK520, suggesting that this compound is a substrate for P-gp in yeast cells. Replacement of Ser-939 in Mdr3 by a series of amino acid substitutions is shown to modulate both the level of cellular resistance to FK520 and the mating efficiency of yeast mdr3 transformants. The effects of these mutations on the function of Mdr3 in yeast cells are similar to those observed in mammalian cells with respect to drug resistance and transport, indicating that transport of a-factor and FK520 in yeast cells is mechanistically similar to drug transport in mammalian cells. The ability of P-gp to confer cellular resistance to FK520 in yeast cells establishes a dominant phenotype that can be assayed for the positive selection of intragenic revertants of P-gp inactive mutants, an important tool for the structure-function analysis of mammalian P-gp in yeast cells.
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PMID:Functional expression of P-glycoprotein in Saccharomyces cerevisiae confers cellular resistance to the immunosuppressive and antifungal agent FK520. 750 92

Evidence is provided that selection of the Chinese hamster cells CHLV-79 RJK with ethidium bromide results in amplification and overexpression of mdr family genes, one of which is encoding a transmembrane P-glycoprotein reducing the intracellular drug concentration. It is likely that the amplified copies are located at or near the sites of resident mdr gene localization to look as an abnormal chromosomal banding pattern in chromosome 1q26. In the following selection steps to higher drug concentration, the cells are keeping the degree of amplification, but mdr gene expression increases by many times. The data suggest that the resistance of the Chinese hamster cells CHLV-79 RJK to higher concentrations of ethidium bromide may be achieved via a variety of mechanisms, including as well mdr gene amplification as transcriptional regulation of these genes.
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PMID:[The amplification and overexpression of the mdr genes in Chinese hamster CHLV-79 RJK cells resistant to ethidium bromide correlate with the presence of karyotypic markers of the amplification]. 750 4

A DNA-targeted hypoxic cell radiosensitizer and cytotoxin, 5-[3-(2-nitro-1-imidazoyl)-propyl]-phenanthridinium bromide (2-NLP-3), has been shown previously to have increased efficacy over untargeted analogues in vitro. To further study the mechanism of action of this compound, a cell line, CHO-1000, derived from Chinese hamster ovary (CHO) AA8-4 cells was isolated. This cell line is capable of continuously growing in a concentration of 2-NLP-3 approximately 10-fold greater than that tolerated by wild-type CHO cells. The resistance of CHO-1000 to 2-NLP-3 was compared with that of the P-glycoprotein overexpressing, multidrug resistant Chinese hamster cell line CHR-C5 (C5). The resistance of CHO-1000 cells to the acute toxic effects of 2-NLP-3 under both hypoxic and aerobic exposure conditions was intermediate to that of the sensitive CHO wild-type cells and the resistant C5 cells. A similar pattern was seen for the hypoxic cell radiosensitizing ability of 2-NLP-3. 2-NLP-3 produced significant depletion of glutathione under both hypoxic and aerobic conditions in all three cell lines studied, and the degree of depletion was correlated with drug toxicity. CHO-1000 and C5 cells were significantly more resistant to colchicine and doxorubicin compared with wild-type cells. The toxicity pattern of 2-NLP-3 and its comparison phenanthridinium ion, P3, was not the same for CHO-1000 cells compared with C5 cells. Verapamil was an effective agent for reversing the hypoxic resistance to 2-NLP-3 in both CHO-1000 and C5 cells, but only a partial reversal of aerobic resistance was observed in CHO-1000 cells. These results indicate that the resistant phenotype of CHO-1000 is mediated to some degree by P-glycoprotein expression, but that other as yet unidentified factors are also involved.
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PMID:Isolation and characterization of a cell line resistant to 5-[3-(2-nitro-1-imidazoyl)-propyl]-phenanthridinium bromide (2-NLP-3), a DNA-intercalating hypoxic cell radiosensitizer and cytotoxin. 760 46

The possible role of Cl- currents in regulatory volume decrease processes has been explored in HeLa cells using the whole-cell recording mode of the patch-clamp technique. Cells showed very small currents in voltage-clamp experiments performed with Cl(-)-rich, permeant-cation-free (N-methyl-D-glucamine replacement) intracellular and bathing solutions. Exposure of the cells to hypotonic solutions visibly swelled the cells and activated, reversibly, an outward rectifying Cl- current, which decayed at the most depolarised voltages used. Replacement of extracellular Cl- by a series of halide anions, SCN- and gluconate was consistent with an anion selectivity sequence: SCN- > I- > Br- > Cl- > F- > gluconate. The volume-regulated Cl- current was effectively inhibited by 100 microM 5-nitro-2-(3-phenyl-propylamino)-benzoic acid and by 100 microM 4,4'-diisothiocyanotostilbene-2,2-disulphonic acid, substances known to block Cl- channels in a variety of cells. Chloride current activation by hypotonicity was dependent on the presence of ATP in the intracellular solution and this requirement could be replaced by the non-hydrolysable analogue ATP[gamma S] and Mg(2+)-free ATP. The data suggest that the channels responsible for the current described are involved in the regulatory volume decrease in HeLa cells. The characteristics of this Cl- current are similar to those of the current associated with expression of multidrug resistance P-glycoprotein. Furthermore, the currents in HeLa cells were inhibited rapidly and reversibly by verapamil and 1,9-dideoxyforskolin, which are known to inhibit P-glycoprotein function.
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PMID:Volume-activated chloride channels in HeLa cells are blocked by verapamil and dideoxyforskolin. 767 91

P-glycoprotein is phosphorylated in cells, and it has been suggested that phosphorylation may regulate the drug transport activity of P-glycoprotein. Domain mapping, utilizing a combination of cyanogen bromide digestion and immunoblot analysis, was used to reveal the major phosphorylation sites in murine mdr1b P-glycoprotein. After labeling of J7.V1-1 cells with [32P]Pi, or labeling membranes with [gamma-32P]ATP and either protein kinase A or protein kinase C, it was found that the majority of the label was contained within a single cyanogen bromide fragment (amino acid 627-682) that encompassed the majority of the linker region. The in vitro protein kinase C phosphorylation sites within this fragment were analyzed by a combination of fast atom bombardment mass spectrometry (FABMS) and two-dimensional phosphopeptide mapping. FABMS analysis of a protein kinase C-phosphorylated synthetic peptide, corresponding to a segment of the linker region of P-glycoprotein, identified serine 669 as the single site of phosphorylation. Comparison of two-dimensional tryptic phosphopeptide maps prepared from synthetic peptide and P-glycoprotein, both of which were phosphorylated in vitro with protein kinase C, revealed that serine 669 was also the major phosphorylation site in the intact glycoprotein. The in vitro protein kinase A phosphorylation site was identified as serine 681 by site-directed mutagenesis. Inspection of the gene organization and the deduced amino acid sequence of mdr1b P-glycoprotein revealed that the linker region, although shorter than the R domain (55 versus 241 amino acids), fits the operational definition of the R domain of cystic fibrosis conductance regulator. Like the R domain, the linker region is encoded by a single exon, is highly charged with alternating acidic and basic side chains, and contains several protein kinase A/protein kinase C consensus phosphorylation sites. Since the R domain is believed to be involved in the regulation of cystic fibrosis conductance regulator function by phosphorylation, it is possible that the linker region plays a similar regulatory role in P-glycoprotein function.
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PMID:Identification of the major phosphorylation domain of murine mdr1b P-glycoprotein. Analysis of the protein kinase A and protein kinase C phosphorylation sites. 790 Dec 20

In this study the ability of five novel anti-oestrogens [4-iodotamoxifen, pyrrolidino-4-iodotamoxifen, ethyl bromide tamoxifen (EBTx), ICI 164,384 (ICI 164) and ICI 182,780] to alter drug toxicity to multidrug resistant cell lines have been compared. The effect of these compounds on ATP-dependent vinblastine (VBL) transport was also tested using inside-out vesicles (IOV) prepared from highly P-glycoprotein (Pgp)-expressing CCRF-CEM/VBL1000 cells. The pure anti-oestrogen ICI 164 was most effective, enhancing doxorubicin and VBL toxicity to MCF-7Adr cells 25- and 35-fold, respectively, and was also the best inhibitor of ATP-dependent [3H]VBL accumulation by IOV. Pure anti-oestrogens, tamoxifen and iodotamoxifens completely reversed VBL resistance in the mdr1 transfected lung cancer cell line, S1/1.1, where resistance relative to wild-type cells was mediated solely by Pgp. The membrane impermeant tamoxifen derivative EBTx did not modify drug resistance, yet was as effective an inhibitor of VBL accumulation by inside-out Pgp-positive vesicles as tamoxifen. This indicates an intracellular role for tamoxifen and its derivatives in the modulation of Pgp-mediated drug resistance.
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PMID:Reversal of P-glycoprotein-mediated multidrug resistance by pure anti-oestrogens and novel tamoxifen derivatives. 791 4

The role of estrogenic hormones on the induction of drug resistance was studied in cervical cancer cell lines, SiHa and Caski. After the cells were inoculated with estradiol (E2) or diethylstilbestrol (DES) in various dosages, the cell survival rates with adriamycin treatment were examined by MTT (3-[4,5-dimethyl-thiazole-2-yl]-2,5-diphenyl-tetrazolium-bromide) test and the intracellular accumulation of adriamycin was evaluated by flow cytometry. In the same condition, the expression of multidrug resistance gene-1 (mdr-1 gene) was detected either by Northern blot hybridization for mdr-1 mRNA or by immunoblot for P-glycoprotein 170. The data in this study indicated that estrogenic hormones had the capacity to induce drug resistance in cervical carcinoma cell lines. When cells were treated with estrogenic hormones and adriamycin simultaneously, the intracellular accumulation of adriamycin declined and corresponded with the drug resistance. Since the expression of the mdr-1 gene induced by E2 or DES results in drug resistance, it is suggested that the mdr-1 gene in SiHa cells may contain the estrogenic responsive element (ERE) in its regulatory region. However, the mechanism of drug resistance induced by estrogenic hormones in Caski cells is different from SiHa cells due to the absence of mdr-1 gene expression. Despite that, this experiment may provide a model to investigate the relationships between estrogenic hormones and drug resistance in other female genital cancers.
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PMID:The induction of multidrug resistance in human cervical carcinoma cell lines by estrogenic hormones. 791 38

Spontaneously transformed Chinese hamster lung cells with high levels of resistance (approximately 100-fold to 70,000-fold) to actinomycin D, daunorubicin, or vincristine exhibit morphology and growth patterns characteristic of normal cells in vitro and reduced tumorigenicity in vivo. These reverse transformed, multidrug-resistant cells amplify and highly overexpress one or more genes encoding P-glycoprotein. Similarly, hydrocarbon-induced mouse sarcoma cells selected with actinomycin D, vincristine, or ethidium bromide developed high levels of resistance associated with reduced drug accumulation and suppression of malignancy. To determine whether human tumor cells would undergo similar changes and whether reverse transformation reflected an altered state of differentiation, nine multidrug-resistant sublines were selected with four agents from human neuroblastoma cells with well defined pathways of differentiation. Those five with resistance levels above about 125-fold showed a reduced tumor frequency as compared to control cells. All resistant sublines showed altered differentiation. The changes in transformation phenotype appear to be intrinsic and not the result of altered immunogenicity. Two additional consequences of high level multidrug resistance have been observed: change in ganglioside composition in the Chinese hamster cells, manifested as a block in higher ganglioside biosynthesis and/or a relative increase in GM3, and increase in epidermal growth factor receptor in all three cell systems. A tentative hypothesis links ganglioside and growth factor receptor changes to the change in transformation phenotype. The basis of the reverse transformation phenomenon is not known, but the major alterations in expression of P-glycoprotein, gangliosides, and the epidermal growth factor receptor implicate, in some way, the plasma membrane.
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PMID:Reverse transformation of multidrug-resistant cells. 792 50

1. We have studied the permeation and pharmacological properties of a recently described volume-activated, calcium-insensitive, small-conductance Cl(-)-channel in endothelial cells from human umbilical vein. 2. The relative permeability for various anions was I- > Cl- approximately Br- > F- > gluconate- (1.63 +/- 0.36: 1:0.95 +/- 0.16:0.46 +/- 0.04:0.19 +/- 0.07, n = 10). 3. 5-Nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB) induced a fast and reversible block of the current (Ki = 29 mumol l-1). 4. Extracellular ATP induced a low-affinity block of the current, that showed a small voltage-dependence (K1 = 4.9 mmol l-1 at +80 mV and K1 = 8.2 mmol l-1 at -80 mV). 5. Extracellularly applied arachidonic acid (10 mumol l-1) irreversibly blocked the current in 5 out of 9 cells. This block seems to be non-specific, because other ionic currents, e.g. inwardly rectifying K+ currents, were blocked as well. 6. Tamoxifen induced a high affinity block of the current (K1 = 2.9 mumol l-1). Block and reversal of block were however much slower than with NPPB. 7. Cytotoxic compounds, which are substrates of the P-glycoprotein multidrug transporter, loaded into endothelial cells via the patch pipette, exerted only minor effects on the volume-activated current. Vinblastine and colcemid did not affect the volume-activated current, whereas daunomycin and vincristine induced a slow 'run-down' of the current. 8. The similarity between permeation and pharmacological properties of volume-activated Cl--currents in endothelial cells and those in many other cell types may suggest that they all belong to the same family of volume-activated small-conductance Cl--channels. Evidence that they belong to the class of P-glycoprotein associated Cl--channels is however only marginal, whereas their biophysical characteristics differ significantly from those of the CIC-2 volume-activated Cl--channels.
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PMID:Permeation properties and modulation of volume-activated Cl(-)-currents in human endothelial cells. 795 63


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