Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 murine melanoma tumor cells, B16-BL6, are a recognized model for experimental and spontaneous metastasis. B16-BL6 cells express a lower metastatic phenotype upon acquisition of resistance to adriamycin. Using this novel system, the role of ras, c-myc, and multidrug-resistant gene (mdr1) expression in the metastatic and drug-resistant phenotype was examined. The metastatic cells expressed a high level of c-Ki-ras and c-myc, whereas down-regulation of both proto-oncogenes was observed in the adriamycin-resistant cells. The mdr1 gene, which encodes P-glycoprotein of the drug-resistant superfamily gene, was overexpressed in drug-resistant melanoma cells. These results suggest that altered expression of genes that regulate cellular proliferation and growth may be a determinant of metastasis and drug sensitivity of tumor cells.
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PMID:Down-regulation of ras and myc expression associated with mdr-1 overexpression in adriamycin-resistant tumor cells. 136 85

Six different P-glycoprotein gene segments were identified from an emetine-resistant E. histolytica mutant, which overexpresses mRNAs homologous to segments of the human mdr1 (P-glycoprotein) gene. The open reading frames of two completely sequenced genes EhPgp1 and EhPgp2 were 1,302 and 1,310 amino acids long, respectively, and showed a 67% positional identity with each other and 41 and 40% positional identities, respectively, with human mdr1 gene. Within each ameba P-glycoprotein were the ATP-binding sites found twice in eukaryotic P-glycoproteins and once in prokaryotic transport proteins. A phylogenetic tree showed that Entamoeba P-glycoproteins are more related to the human and mouse P-glycoproteins than to the Plasmodium and Leishmania P-glycoproteins. In addition, there were two P-glycoprotein pseudogenes, each with a frame shift and stop codons in identical places within the amino ATP-binding site.
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PMID:P-glycoprotein genes of Entamoeba histolytica. 136 1

A 300-fold adriamycin resistant variant (DLKP-A) of the human lung squamous cell carcinoma line DLKP was established by stepwise selection in increasing concentrations of adriamycin. Different levels of cross-resistance were observed towards VP-16, VM-26, colchicine, vincristine and, somewhat unexpectedly, cis-platin. Resistance was stable for at least 3 months in culture in the absence of drug. P-glycoprotein overexpression was detected by immunofluorescence and Western Blotting, and a direct causal role for P-glycoprotein overexpression in the resistant phenotype was established by transfection with an mdr1 specific antisense oligonucleotide. A modified cryopreservation procedure was necessary for the resistant variant line. The resistant population displays clonal heterogeneity with respect to resistance level. A higher frequency of double minute chromosomes was observed in DLKP-A when compared with the parental cell line.
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PMID:Multiple drug-resistance in variant of a human non-small cell lung carcinoma cell line, DLKP-A. 136 13

The possibility that simple lipophilic cations such as tetraphenylphosphonium (TPA+), triphenylmethylphosphonium (TPMP+), and diphenyldimethylphosphonium (DDP+) are substrates for the multidrug-resistance transport protein, P-glycoprotein, was tested. Hamster cells transfected with and overexpressing mouse mdr1 or mouse mdr3 exhibit high levels of resistance to TPP+ and TPA+ (20-fold) and somewhat lower levels of resistance to TPMP+ and DDP+ (3-12-fold). Transfected cell clones expressing mdr1 or mdr3 mutants with decreased activity against drugs of the MDR spectrum (e.g., Vinca alkaloids and anthracyclines) also show reduced resistance to lipophilic cations. Studies with radiolabeled TPP+ and TPA+ demonstrate that increased resistance to cytotoxic concentrations of these lipophilic cations is correlated quantitatively with a decrease in intracellular accumulation in mdr1- and mdr3-transfected cells. This decreased intracellular accumulation is shown to be strictly dependent on intact intracellular nucleotide triphosphate pools and is reversed by verapamil, a known competitive inhibitor of P-glycoprotein. Taken together, these results demonstrate that lipophilic cations are a new class of substrates for P-glycoprotein and can be used to study its mechanism of action in homologous and heterologous systems.
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PMID:Lipophilic cations: a group of model substrates for the multidrug-resistance transporter. 137 1

We have produced antibodies specific for the three P-glycoprotein (P-gp) isoforms encoded by the mouse mdr1, mdr2, and mdr3 genes. The anti-Mdr2 and anti-Mdr3 antibodies were generated against synthetic peptides derived from the "linker" region, whereas the anti-Mdr1 antibody was raised against a fusion protein containing the amino terminus of Mdr1. Western blot analysis showed that the three antibodies could discriminate between the three isoforms in membrane fractions from Hamster cells transfected with the corresponding full-length or chimeric mdr cDNAs. Immunocytochemistry studies of mdr-transfected cells showed that the three antibodies specifically recognized each P-gp isoform expressed in whole cells. Immunoblotting of normal mouse tissues revealed that the Mdr2 isoform was expressed at very high levels in liver canalicular membrane vesicles (CMV) but not in membrane vesicles prepared from the basolateral (sinusoidal) domain (SMV). Mdr3 was detected in intestinal brush border membrane vesicles and also in CMV, although at levels much lower than Mdr2. Mdr1 was not detected in CMV or SMV but was detected in endometrial tissue from the gravid uterus. Photolabeling experiments with [125I]iodoarylazidoprazosin followed by immunoprecipitation with isoform-specific antibodies indicated that, in CMV, Mdr3 but not Mdr2 could bind the drug analogue.
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PMID:mdr2 encodes P-glycoprotein expressed in the bile canalicular membrane as determined by isoform-specific antibodies. 138 62

The multidrug-resistant (MDR) phenotype is characterized in vitro by the resistance displayed by cell lines to a broad spectrum of natural product cytotoxic agents. This high level of cross-resistance is due to the increased expression of a membrane glycoprotein termed P-glycoprotein. Encoded in humans by the mdr1 gene, P-glycoprotein functions as an energy-dependent efflux pump of these cytotoxic agents. In this report, we demonstrate that the newly characterized immunosuppressant FK506 and its structural analogue, rapamycin, are capable of functioning as MDR reversal agents. FK506 and rapamycin increase both intracellular, cytotoxic drug (daunomycin) accumulation, and the cytotoxicity of chemotherapeutic agents in multidrug-resistant cells. The increase in cytotoxic drug accumulation is observed at concentrations of FK506 and rapamycin 1,000-fold greater than the concentrations required for FK506 and rapamycin to inhibit T-lymphocyte activation and similar to those shown to be effective for other MDR reversal agents such as cyclosporine A (CsA) and verapamil. The effect of FK506 or rapamycin on both intracellular accumulation and cytotoxicity of daunomycin is additive. This is supported by the ability of FK506 and rapamycin to directly compete the binding of the photoaffinity analogue 125I-iodoaryl azidoprazosin to the P-glycoprotein. The data demonstrate that FK506 and rapamycin represent a new class of structurally distinct molecules that can function as MDR reversal agents and suggest a previously unidentified, potential clinical role for these compounds.
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PMID:Immunosuppressants FK506 and rapamycin function as reversal agents of the multidrug resistance phenotype. 138 29

The cytotoxic activity of cyclosporin A (CsA) and the three non-immuno-suppressive CsA analogues B3-243, WO-039 and B3-665 were studied in tumor cell lines representing both classical and atypical forms of multidrug resistance (MDR): T-ALL GM3639 L100 cells selected for vincristine (vcr) resistance and displaying characteristics of classical MDR, including P-glycoprotein (pgp) expression and increased drug efflux which can be inhibited by pgp blockers (e.g. verapamil), and U-1285/ADR, a small cell lung cancer (SCLC) cell line selected for doxorubicin resistance which lacks pgp, is insensitive to pgp-blockers and shows cross resistance to cis-platinum. At 1 micrograms/ml CsA was the most active agent in reversing Vcr resistance in L100 cells followed by B3-243 and WO-039, with no effect of B3-665. Parental LO cells were only marginally sensitized to Vcr by these agents. No reversing effect of any cyclosporin was observed in the U-1285/ADR or its parental cell line. Compared to LO cells, L100 cells showed a marked hypersensitivity to CsA > B3-243 > WO-039 with B3-665 being inactive. No collateral sensitivity was observed for cyclosporins in U-1285/ADR cells. Although of different magnitude, the pattern of cytotoxic activity for the different cyclosporins alone closely parallelled that of L100 cells for U-1285, U1285/ADR and LO cells. The results indicate that not only the collateral sensitivity in classical MDR but also the cytotoxic actions of cyclosporins per se on tumor cells alone are independent of immunosuppressive activity. The results also suggest a structure-activity relationship for cyclosporin-induced cytotoxicity similar to, but independent of, MDR reversing activity.
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PMID:Cytotoxic action of cyclosporins on human tumor cell lines is not dependent on immunosuppressive activity. 144 25

Tumor cell resistance due to enhanced efflux of drugs with diverse structures and/or mechanisms of action is termed multidrug resistance (MDR), and modulation of the MDR phenotype by calcium blockers or calmodulin inhibitors is suggested to involve P-glycoprotein. In drug-sensitive (S) and 5-fold doxorubicin (DOX)-resistant (R0) L1210 mouse leukemia cells, no obvious differences in mdr mRNA or P-glycoprotein expression or alterations in cellular uptake, retention, or cytotoxicity of vincristine (VCR) were observed. However, in the 10-fold (R1) and 40-fold (R2) DOX-resistant sublines, expression of P-glycoprotein was correlated with the level of resistance (R2 greater than R1). An RNase protection assay revealed that elevated levels of mdr1 and mdr2 mRNA were detected in R1 and R2 cells, with an additional increase in mdr3 mRNA in the R2 subline. Further, in the R1 and R2 sublines, no VCR dose-dependent cytotoxicity was apparent, and cell kill of greater than 40% was not achievable following a 3-hr drug exposure. Cellular uptake and retention of VCR were 2- to 4-fold lower in the R1 and R2 sublines, compared with similarly treated S or R0 cells. Potentiation of VCR cytotoxicity by a noncytotoxic concentration of 5 microM trifluoperazine (TFP) was greater than 2-fold in S and R0 cells and less than 1.3-fold in the R1 and R2 sublines. Modulation of VCR uptake by 5 microM TFP in the S and R0 cells was 2-fold and it was 4- to 7-fold in the R1 and R2 sublines. The presence of 5 microM TFP, by competing for efflux, enhanced VCR retention 1.5-fold in S and R0 cells and 2- to 4-fold in the R1 and R2 sublines. In contrast to these results with VCR, dose-dependent cytotoxicity of DOX was apparent in all the resistant sublines, and modulation of DOX cytotoxicity by 5 microM TFP was dependent on the level of resistance. Cellular accumulation of DOX was 20 and 50% lower in the R1 and R2 sublines, respectively, compared with similarly treated S or R0 cells. Marked increases (greater than 1.5-fold) in cellular accumulation of DOX by TFP were apparent only in the R2 subline. Results suggest that a relationship between overexpression of P-glycoprotein isoforms and their role in affecting cellular drug levels and consequent cytotoxicity in MDR L1210 cells determines resistance to VCR but not DOX.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Relationship between expression of P-glycoprotein and efficacy of trifluoperazine in multidrug-resistant cells. 167 Sep 62

Tumor cells exposed in tissue culture to one of several different classes of antineoplastic agents, including anthracyclines, vinca alkaloids, epipodophyllotoxins, and certain antitumor antibiotics, can develop resistance to the selecting agent and cross resistance to the other classes of agents. This phenomena of multidrug resistance is generally associated with decreased drug accumulation and overexpression of a membrane glycoprotein. This membrane protein, referred to as P-glycoprotein, apparently acts as an energy-dependent drug efflux pump. Multidrug resistance in human MCF-7 breast cancer cells selected for resistance to adriamycin (AdrR MCF-7) is associated with amplification and overexpression of the mdr1 gene which encodes P-glycoprotein. A number of other changes are also seen in this resistant cell line including alterations in Phase I and Phase II drug metabolizing enzymes. Similar biochemical changes occur in a rat model for hepatocellular carcinogenesis and are associated in that system with broad spectrum resistance to hepatotoxins. The similar changes in these two models of resistance suggests that these changes might be part of a battery of genes whose expression can be altered in response to cytotoxic stress, thus rendering the cell resistant to a wide variety of cytotoxic agents.
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PMID:Keynote address: multidrug resistance: a pleiotropic response to cytotoxic drugs. 167 83

The induction of murine erythroleukemia cells (MELC; DS19/Sc9) to terminal differentiation by hexamethylenebisacetamide (HMBA) is characterized by a latent period of 10-12 hr before onset of commitment to terminal-cell division and increased transcription of globin genes. MELC variants, derived from this parental cell line, selected for resistance to vincristine (VC), can be induced to differentiate with little or no latent period. This study shows that accelerated HMBA-induced commitment is characteristic of MELC with a low level (2- to 5-fold) of VC resistance in four independently derived cell lines. Both resistance to VC and accelerated differentiation are stable phenotypes for at least 50 passages (approximately 5 months) in the absence of VC. Low-level VC-resistant MELC do not display increased levels of P-glycoprotein or mdr1, mdr2, and mdr3 mRNAs, nor do they exhibit cross-resistance to colchicine or doxorubicin. These cells do show (i) increased level of protein kinase C activity, (ii) reduced accumulation of [3H]VC, and (iii) restoration of VC sensitivity in the presence of verapamil. MELC selected for higher levels of VC resistance (approximately 500-fold) do express high levels of P-glycoprotein and the mdr3 gene. During HMBA-induced differentiation, DS19/Sc9 decrease [3H]VC accumulation, but P-glycoprotein content does not change. A VC-transport-associated protein, also critical for the process of induced differentiation, may be constitutively present in VC-resistant MELC, accounting for their enhanced sensitivity to inducer. This protein accumulates by exposure of VC-sensitive cells to HMBA, contributing to their differentiation and decreased level of VC accumulation.
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PMID:Characteristics of erythroleukemia cells selected for vincristine resistance that have accelerated inducer-mediated differentiation. 167 43


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