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)

Several mechanisms of drug resistance have been defined using cell lines selected for resistance in vitro. However, the relevance of these to tumor cell resistance in vivo remains unclear. We established tumor cell lines from biopsies of human sarcomas before and after doxorubicin therapy. One pretreatment sarcoma line, STSAR90, was 6-fold less sensitive to doxorubicin than was a normal fibroblast line, AG1522. The sensitivities of six other sarcoma lines were similar to that of AG1522. STSAR90 cells did not overexpress P-glycoprotein mRNA, by Northern analysis with the pCHP1 complementary DNA fragment. Photoaffinity labeling with the vinblastine analogue N-(p-azido-3-125I-salicyl)-N'-beta-aminoethylvindesine did not show increased P-glycoprotein concentrations. Accumulation of [3H]daunomycin was not decreased in STSAR90 compared with a less resistant sarcoma line, STSAR11, nor was the doxorubicin sensitivity of STSAR90 increased by coincubation with verapamil. Glutathione levels were twice as high in STSAR90 as in STSAR11, and glutathione peroxidase activity was 3.5- to 6-fold higher. This was due mostly to an increase in selenium-dependent peroxidase activity. After exposure to doxorubicin, STSAR90 cells formed only half as much measurable hydroxyl radical as STSAR11, as detected by electron spin resonance spectrometry. Doxorubicin sensitivity was increased in STSAR90 cells when intracellular glutathione levels were reduced by buthionine sulfoximine. These results indicate that multidrug resistance due to P-glycoprotein-mediated drug efflux is not the only mechanism of doxorubicin resistance that occurs in sarcomas and that glutathione peroxidase-dependent detoxification of doxorubicin-induced oxygen radicals may contribute to clinical doxorubicin resistance.
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PMID:Increased glutathione peroxidase activity in a human sarcoma cell line with inherent doxorubicin resistance. 184 55

Resistance to multiple chemotherapeutic agents has been related to the production of P-glycoprotein, a trans-membrane drug efflux pump that is encoded by the multidrug resistance (MDR) gene mdr1. To investigate whether mdr1 could be involved in clinical resistance to chemotherapy in acute leukemias, we have analyzed retrospectively the RNA from adult acute leukemia cells by slot-blot hybridization with a human mdr1 probe. Units of mdr1 expression were defined by reference to drug-sensitive human sarcoma and K562 leukemia cell lines (1 U) and the highly resistant doxorubicin selected leukemia cells K562/R7 (50 U). We studied 41 adult patients with acute leukemias: 5 acute lymphoblastic leukemias, 23 acute myeloid leukemias, and 13 secondary leukemias or blast crisis of chronic myelogenous leukemia. Expression of 10 U or more of mdr1 was found in 6 of 31 (19%) leukemias at diagnosis, versus 5 of 10 (50%) after relapse from therapy, P = .06. The complete remission rate and in vitro sensitivity to daunorubicin were both correlated with low expression (1 U, v 2 U or more) of mdr1. Among 36 evaluable attempts to induce remission, the complete remission rate was 67% (8 of 12) for patients with undetectable or minimal mdr1 expression (1 U), versus 29% (7 of 24) in patients with 2 U or more of expression, P = .03. In vitro resistance to daunorubicin or other MDR-related drugs was associated with expression of 2 U or more of mdr1 in 11 of 11 cases, while specimens that were sensitive to these agents were negative for mdr1 expression in 5 of 11 cases, P = .03. These data suggest that mdr1 expression contributes to chemoresistance in acute leukemia. Determination of mdr1 gene expression may be useful in designing therapy for patients with leukemia.
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PMID:Multidrug resistance (mdr1) gene expression in adult acute leukemias: correlations with treatment outcome and in vitro drug sensitivity. 185 77

HL60 cells isolated for resistance to Adriamycin are multidrug resistant and defective in the cellular accumulation of drug. These cells do not however overexpress mdr1 and do not contain detectable levels of P-glycoprotein. In the present study we have prepared antisera against synthetic peptides that correspond to various sequence domains of P-glycoprotein and have examined by Western blot analysis the reactivity of these antisera with proteins contained in membranes of HL60/Adr cells. All antisera are highly reactive with a Mr 180,000 (p180) P-glycoprotein contained in membranes of HL60 cells isolated for resistance to vincristine (HL60/Vinc). In contrast, of 13 antisera tested 12 do not react with any resistance-associated protein in the HL60/Adr isolate. One antiserum (ASP14) is however highly reactive with a Mr 190,000 protein (p190) contained in HL60/Adr membranes. This protein is not detected in drug-sensitive cells. ASP14 also reacts with proteins p195 and p50 contained in a second independent HL60/Adr isolate. Analysis of membrane subfractions shows that p190 is located primarily in the endoplasmic reticulum with only low levels contained in plasma membranes. Additional studies demonstrate that endoplasmic reticulum of HL60/Adr cells contain a major Mr 190,000 protein that is capable of binding the photoaffinity agent 8-azido[alpha-32P]ATP. p195 contained in a second HL60/Adr isolate is also labeled with 8-azido[alpha-32P]ATP. These results thus demonstrate that antiserum against a specific P-glycoprotein sequence detects a p190 (p195) resistance-associated membrane protein in two independent HL60/Adr isolates. p190 (p195) and P-glycoprotein thus contain a minor sequence homology and based on the specificity of ASP14 this occurs in a region which may be involved in nucleotide binding. Possibly this sequence is common to and essential for the functionality of proteins which contribute to resistance by reducing cellular drug levels.
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PMID:Mechanisms of multidrug resistance in HL60 cells: detection of resistance-associated proteins with antibodies against synthetic peptides that correspond to the deduced sequence of P-glycoprotein. 196 79

We have previously shown that phenothiazines sensitize multidrug resistant (MDR) cells to chemotherapeutic drugs in a manner related to specific structural features, and have identified structurally related thioxanthenes with increased anti-MDR activity. We have now studied the structure-activity relationships of 16 thioxanthenes in the human breast cancer line MCF-7 AdrR. trans-Thioxanthene stereoisomers were 2- to 7-fold more potent than cis-thioxanthenes for antagonizing MDR. The most potent thioxanthenes possessed a halogenated tricyclic ring connected by a 3-carbon alkyl bridge to a piperazinyl or piperadinyl side group. The chemosensitizing effects of the lead compound, trans-flupenthixol, its stereoisomer cis-flupenthixol, its phenothiazine homologue fluphenazine, and the calcium channel blocker verapamil, were further studied in a series of sensitive and MDR cell lines. trans-Flupenthixol caused a greater reversal of cellular resistance to doxorubicin, vinblastine, vincristine, and colchicine in MCF-7 AdrR, KB-V1, and P388/DOX MDR cells than the other chemosensitizers. In particular, trans-flupenthixol was 2- to 3-fold more potent for reversing MDR than equimolar concentrations of verapamil. Furthermore, trans-flupenthixol fully reversed resistance to doxorubicin, vincristine, and colchicine in MDR MCF-7 and NIH 3T3 cells transfected with the mdr1 gene. None of these agents altered MDR in a non-P-glycoprotein expressing MCF-7 cell line selected with mitoxantrone, nor in any of the parental cell lines. The stereoselective antagonism of the flupenthixol isomers on several putative cellular targets was studied to explore the mechanism of their chemosensitizing activity. cis- and trans-flupenthixol were equally active inhibitors of protein kinase C and calmodulin. Both cis- and trans-flupenthixol were also potent inhibitors of [3H]azidopine binding to P-glycoprotein. The apparent lack of clinical toxicity of trans-flupenthixol makes it an attractive drug for possible use in the modulation of tumor resistance in vivo if appropriate tissue concentrations can be achieved.
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PMID:Cellular and biochemical characterization of thioxanthenes for reversal of multidrug resistance in human and murine cell lines. 196 58

We have transfected a eukaryotic expression vector containing a mdr1 complementary DNA isolated from normal human liver into human BRO melanoma cells to study the drug-resistant phenotype produced by the exclusive overexpression of normal human mdr1 P-glycoprotein. The drug resistance pattern of mdr1-transfected clones includes relatively high resistance to gramicidin D (about 300-fold), vincristine (about 100-fold), and actinomycin D (about 100-fold) and a lower degree of resistance to doxorubicin (about 10-fold), VP16-213 (about 10-fold), and colchicine (about 6-fold). The transfectants did not exhibit resistance to trimetrexate, cis-platinum, mitomycin C, 1-beta-D-arabinofuranosylcytosine, bleomycin, G418, or magainin-2-amide; they were slightly more sensitive to verapamil (2-fold) but not to Triton X-100. As in other multidrug-resistant cell lines, resistance to vincristine could be reversed by verapamil and, more effectively, by cyclosporin A. Chloroquine only marginally increased drug sensitivity in mdr1-transfected cells. Gramicidin D resistance was also reversed by verapamil, suggesting that the mechanism of resistance to this polypeptide antibiotic is similar to that of other drugs transported by P-glycoprotein. Thus, expression of the wild-type mdr1 complementary DNA induces a drug-resistant phenotype similar to that induced by mdr1 complementary DNAs isolated from drug-resistant cell lines with relatively low colchicine resistance. As other cell lines may display a different pattern of drug resistance, it is clear that other resistance mechanisms or cell type-specific factors may modulate the resistance. mdr1-transfected cell lines provide a convenient tool for the identification of P-glycoprotein-mediated phenomena.
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PMID:Multidrug resistance phenotype of human BRO melanoma cells transfected with a wild-type human mdr1 complementary DNA. 196 59

We report here the identification of multiple 344-bp segments of amoeba DNA similar to the human multidrug resistance (mdr) gene using primers to conserved regions of the P-glycoprotein and the polymerase chain reaction (PCR). The amino acid sequences of amoeba mdr-like PCR products were 46-97% identical to each other, 46-51% identical to human mdr1 sequences, and 30-35% identical with Plasmodium falciparum mdr-like sequences. On Northern blots, the mdr-like PCR products identified amoeba mRNAs 4.5-5 kb long, similar to the 5-kb mRNAs reported for the mammalian mdr gene. These mdr-like mRNAs were increased at least 7 times in emetine-resistant mutant clone C2 amoebae vs. wild-type clone A parasites. Furthermore, the expression of the mdr-like mRNAs was increased 3-4 times when clone C2 mutants were grown under drug pressure vs. the same parasites grown without emetine. In contrast, the number of genomic copies of the mdr-like DNA segments was not increased in the mutant clone C2 vs. the wild-type clone A amoebae, and no rearrangements of the mdr-like DNA segments by the mutant were identified on Southern blots. In conclusion, there appears to be a family of mdr-like genes in Entamoeba histolytica, which may be involved in drug resistance by the parasite because they are overexpressed in drug-resistant mutants.
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PMID:Emetine-resistant mutants of Entamoeba histolytica overexpress mRNAs for multidrug resistance. 197 Jan 21

Increased expression of the mdr1 gene, encoding the 175 kDa P-glycoprotein, and the gst-pi gene, encoding the anionic isozyme of glutathione S-transferase (GST), have previously been detected in continuous human breast cancer cell lines selected in vitro for resistance to doxorubicin. In this present study we have measured RNA levels of mdr1 and gst-pi in primary human breast tumour biopsies prior to chemotherapy and from tumours which have different inherent responses to doxorubicin treatment, including colon, head and neck squamous cell carcinomas and myeloid leukaemias. Detectable levels of mdr1 mRNA was observed in 25 out of 49 breast tumours, with up to a 100-fold range in expression. A narrower range of gst-pi expression has also been observed in these tumours. Chemosensitivity of cells grown in short-term culture from some of the breast tumours has been measured by an in vitro colony forming assay in the presence of doxorubicin. Comparison of the dose of doxorubicin causing 50% inhibition of growth (ID50) with RNA levels showed that the tumours with high mdr1 expression had high ID50, while the more sensitive explants had low mdr1 expression. These results support a role for mdr1 gene expression in determining the response of human breast cancer cells to chemotherapy.
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PMID:Expression of mdr1 and gst-pi in human breast tumours: comparison to in vitro chemosensitivity. 197 Sep 34

We determined the expression levels of the mdr1 and mdr3 multidrug-resistance genes (also known as PGY1 and PGY3, respectively) in peripheral blood cells from 69 adult patients with acute and chronic leukemias, using an RNase protection assay. Expression of mdr1 was found in samples from patients with acute nonlymphocytic leukemia (13 of 17), chronic myelocytic leukemia (CML, chronic phase, 10 of 10; blast crisis, three of four), acute lymphocytic leukemia (ALL, eight of 11), B-cell chronic lymphocytic leukemia (B-CLL, 17 of 17), hairy cell leukemia (HCL, one of two), and T-cell prolymphocytic leukemia (one of one), but not in B-cell prolymphocytic leukemia (B-PLL, 0 of seven). Expression of mdr3 was only detected in samples from B-cell lymphocytic leukemias: CML, lymphoid blast crisis (one of one), B-cell ALL (two of two), B-CLL (17 of 17), B-PLL (seven of seven), and HCL (two of two). In vitro drug uptake studies by on-line flow cytometry showed that in leukemia cells expressing either mdr1 or mdr3, the steady-state accumulation of daunorubicin could be significantly increased by addition of cyclosporine and, to a lesser extent, by verapamil. Because cyclosporine and verapamil are known as inhibitors of the mdr1-encoded P-glycoprotein drug-efflux pump, and because the mdr1 and mdr3 genes are highly homologous, our data suggest that the mdr3 gene encodes a functional drug pump in B-cell lymphocytic leukemias. The results of this study may have implications for clinical therapy for acute or chronic leukemias expressing the mdr1 or mdr3 gene, in particular, treatment with combinations of cytotoxic drugs plus agents that reverse multidrug resistance. Since mdr1 and mdr3 are frequently expressed in untreated as well as treated leukemia, such combination therapy should be considered for untreated patients as well as treated patients.
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PMID:Expression of mdr1 and mdr3 multidrug-resistance genes in human acute and chronic leukemias and association with stimulation of drug accumulation by cyclosporine. 197 61

The nucleotide sequence of the mdr1 gene encoding a putative drug efflux pump (P-glycoprotein) is homologous to a class of bacterial membrane-associated transport proteins. These bacterial proteins are part of a multicomponent system that includes soluble periplasmic proteins that bind substrates, channeling them through the membrane in an energy-dependent manner. We have investigated the possibility that a similar multicomponent transport system exists in a multidrug-resistant human MCF-7 breast cancer cell line that was initially selected for resistance to doxorubicin (AdrR MCF-7). AdrR MCF-7 cells overexpress both the mdr1 gene and the pi class isozyme of glutathione S-transferase (GST-pi) (EC 2.5.1.18). The latter is one of several isozymes known to have a ligand-binding function in addition to drug-metabolizing capabilities. Although we have recently shown that transfection of a functional GST-pi expression vector is insufficient to confer resistance to doxorubicin in cells that lack P-glycoprotein expression [Mol. Pharmacol. 36:22-28 (1989)], we examined the possibility that GST-pi interacts with P-glycoprotein to alter multidrug resistance. To do this, we have cloned cDNAs encoding these proteins from AdrR MCF-7 cells, constructed expression vectors containing these two genes, and transfected these vectors sequentially into drug-sensitive MCF-7 cells. The human mdr1 cDNA isolated from AdrR MCF-7 is a variant gene whose sequence differs from that isolated previously from vinblastine-resistant KB cells [Cell 53:519-529 (1989)], resulting in an amino acid substitution of alanine to serine at position 893 (mdr1/893ala). Transfection of eukaryotic expression vectors containing the mdr1 gene isolated from AdrR MCF-7 cells produced a multidrug-resistant phenotype in recipient cells, with a cross-resistance pattern similar to that in the AdrR MCF-7 cells. To determine whether GST-pi expression could augment resistance provided by mdr1, two clones transfected with mdr1, one with high levels (153% of mdr1 RNA in AdR MCF-7 cells) and one with low levels (10% of mdr1 RNA in AdrR MCF-7 cells), were subsequently cotransfected with a GST-pi expression vector and pSVNeo and selected for resistance to G418. Six of these clones contained levels of GST-pi that were 8- to 18-fold greater than GST levels found in mdr1-expressing clones transfected with nonspecific DNA. We found no difference in the degree of resistance to doxorubicin, actinomycin D, and vinblastine between the clones expressing mdr1 only and the clones expressing both mdr1 and GST-pi.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Multidrug resistance in cells transfected with human genes encoding a variant P-glycoprotein and glutathione S-transferase-pi. 197 72

Two different mechanisms that contribute to multidrug resistance (MDR) were found in derivatives of the human squamous lung cancer cell line SW-1573. The parental cell line has a low amount of mdr1 P-glycoprotein mRNA. In three independent selections for doxorubicin resistance, MDR variants arose in which mdr1 P-glycoprotein mRNA and protein was not detectable. Selection on higher doxorubicin concentrations gave rise to variants containing high levels of mdr1 mRNA, due to transcriptional activation of the mdr1 gene. Upon continued selection for higher levels of doxorubicin resistance, the mdr1 gene became amplified, resulting in an additional increase in the level of mdr1 mRNA. The cross-resistance pattern of the sublines that lack mdr1 P-glycoprotein expression is different from that seen in the mdr1 overexpressing cells. Both types of MDR cell lines are resistant to doxorubicin, daunorubicin, etoposide, colchicine, gramicidin D, and vincristine. However, in the non-P-glycoprotein-mediated MDR cell lines, resistance levels are lower and a preferential resistance for etoposide is seen.
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PMID:Non-P-glycoprotein mediated mechanism for multidrug resistance precedes P-glycoprotein expression during in vitro selection for doxorubicin resistance in a human lung cancer cell line. 197 23


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