Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fluctuation analysis experiments were performed in the human sarcoma cell line MES-SA to assess whether selection or induction mechanisms determine resistance to doxorubicin (DOX), mutation rates, and the nature of the surviving clones. Thirteen flasks were seeded with 2000 cells/flask and grown to confluent populations of approximately 3.3 x 10(6) cells. After reseeding in 96-well plates, each population was treated with 40 nM DOX for 2 weeks. Surviving colonies were scored and harvested. Clones were propagated and analyzed for drug resistance phenotype. Expression of the mdr1, mrp, and topoisomerase II alpha and II beta genes was analyzed by reverse transcription-polymerase chain reaction. Accumulation of the P-glycoprotein substrate rhodamine-123 was measured by flow cytometry, with and without the cyclosporin D analogue SDZ PSC 833. Cellular glutathione levels were measured by flow cytometry, and M(r) 110,000 vesicular protein (p110) expression was detected by immunohistochemistry. Analysis of variance supported the hypothesis of spontaneous mutations rather than induction conferring DOX resistance. At this stringent level (5-6 log cell killing) of drug exposure, the mutation rate was estimated at 1.8 x 10(-6) per cell generation. All 30 propagated clones demonstrated cross-resistance to vinblastine, etoposide, and paclitaxel (Taxol), but not to cisplatin or bleomycin. Increased mRNA levels of mdr1 were observed in all 27 clones tested, including at least 1 from each of the 13 populations. No alterations were found in expression or level of topoisomerase II alpha or II beta, mrp, glutathione, and p110. Expression of P-glycoprotein was confirmed by flow cytometry using the monoclonal antibody UIC2. In almost all tested clones, decreased intracellular rhodamine-123 accumulation was modulated by 2 microM SDZ PSC 833, and the vinblastine resistance in all examined clones was completely reversed by SDZ PSC 833 and verapamil. Our study demonstrates that survival of cells exposed to DOX in a single step occurs as a result of a stochastic process consistent with mutational events. Activation of the mdr1 gene is the predominant mechanism selected by DOX in these resistant clones.
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PMID:Prevalence of multidrug resistance related to activation of the mdr1 gene in human sarcoma mutants derived by single-step doxorubicin selection. 791 96

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

A new cell line was derived from the epithelioid sarcoma of a Caucasian woman who had previously received chemotherapy. The cells grew as an adherent monolayer, with a doubling time of 28 hr and had mainly epithelial morphology, but with areas of mesenchymal-like cytoplasmic extensions. The cells were tumorigenic in nude mice, with a short growth time, and a doubling time of 8 days. The cell line showed over-expression of P-glycoprotein by Western blot analysis, and its sensitivity to doxorubicin and vincristine was low. This sensitivity could be enhanced by reversants of multidrug resistance (MDR), such as cyclosporin or verapamil. This cell line constitutes an excellent model for studying compounds able to reverse MDR.
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PMID:Characterization and chemosensitivity of a human epithelioid sarcoma cell line (SARCCR 2). 809 1

The multidrug resistance (MDR) gene family has been shown to be highly expressed in several normal tissues including the canalicular membrane of the hepatocyte. We report that a cholestatic estrogen metabolite, 17 beta-estradiol glucuronide (E217G), is a substrate for the MDR transporter, P-glycoprotein. In cytotoxicity studies, the MDR sarcoma cell line Dx5 was 4.7-fold resistant to E217G, and the K562/R7 leukemia MDR cell line was 5.0-fold resistant to E217G relative to their parental cell lines. There was also a 2- to 3-fold accumulation defect of [3H]E217G in the MDR cells relative to their parental cell lines. E217G (100 microM) modulated resistance ot doxorubicin, taxol, vinblastine, and etoposide in the Dx5 cells, completely reversing the 30- to 60-fold resistance observed with these agents. E217G had no effect on the toxicity of these compounds in the parental cell line (MES-SA). In contrast, MDR cells were not resistant to the noncholestatic estrogen metabolite, estriol 3-glucuronide, and this metabolite did not modulate resistance to MDR substrates. ATP-dependent transport of [3H]E217G in rat canalicular membranes was inhibited by several MDR substrates including vinblastine, etoposide, verapamil, cyclosporine, and PSC-833.
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PMID:17 beta-estradiol glucuronide: an inducer of cholestasis and a physiological substrate for the multidrug resistance transporter. 810 46

We have previously described the synthesis of a cytotoxic polymeric conjugate of spermine (Poly-SPM) which is able to inhibit the transport of polyamines (spermine, spermidine, and putrescine) into normal and malignant cells. Recent studies examining the toxicity of Poly-SPM in parental and multidrug resistant (MDR) cancer cells have revealed a cross-resistance in the MDR variant Dx5 to the toxic effects of the conjugate in the MDR-positive cells. There were also differences in spermine and putrescine uptake rates between parental and MDR-positive with the MDR-positive cells having a lower Vmax and a higher Km. The ability of this Poly-SPM to reverse MDR was examined in MDR variants (Dx5 cells) of the human sarcoma cell line MES-SA. The cells express high levels of the mdr1 gene product, P-glycoprotein, and are 25-to 60-fold resistant to doxorubicin (DOX), etoposide (VP-16), vinblastine (VBL), and taxol (TAX). Cytotoxicity was measured by the MTT [3-(4,5-dimethyldiazol-2-yl)-2,5-diphenyltetrazolium bromide] assay. Poly-SPM (50 microM) lowered the drug concentration IC50 values in the Dx5 cells by 37-fold with VBL, 42-fold with DOX, 29-fold with VP-16, and 25-fold with TAX when compared to the control IC50 values without Poly-SPM. This reversal of resistance was concentration dependent, decreasing 17-fold with DOX, 6.1-fold with VBL, 19-fold with VP-16, and 5-fold with TAX when 25 microM Poly-SPM was used. No modulation was observed in the parental cell line MES-SA, which does not express the mdr1 gene. Poly-SPM had no influence on the IC50 of non-MDR chemotherapeutic agents such as cisplatin. The modulation studies correlated with the ability of Poly-SPM to reverse the cellular accumulation defect of [3H]-VBL and [3H]-TAX in the Dx5 but not MES-SA cells. Pretreatment of the Dx5 cell with alpha-difluoromethylornithine (DFMO at 2 and 5 microM) for 24 h increased the function of the MDR transporter to further decrease the cellular accumulation of VBL and TAX when compared to untreated cells. DFMO pretreatment is known to upregulate the polyamine transporter(s). These findings show that, in addition to inhibiting polyamine transport, Poly-SPM reverses MDR in Dx5 cells, suggesting a potential relationship between the polyamine influx transporter and the MDR efflux pump. This potential functional link between the polyamine influx transporter(s) and the MDR efflux transporter (P-glycoprotein) offers a novel approach to inhibiting this form of drug resistance.
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PMID:Reversal of doxorubicin, etoposide, vinblastine, and taxol resistance in multidrug resistant human sarcoma cells by a polymer of spermine. 861 15

Expression of the multidrug resistance gene MDR1 is reported to be an important determinant of the response to chemotherapy and survival in some cancers. We compared three methods for determining the intrinsic MDR1 expression in soft tissue sarcomas. We studied MDR1 gene expression in 39 samples from 33 cases of soft tissue sarcomas comprising 11 liposarcomas, nine malignant fibrous histiocytomas, six leiomyosarcomas, four malignant schwannomas, three fibrosarcomas, three synovial sarcomas, and three epithelioid sarcomas, and seven cases of benign soft tissue tumors in adult patients. To detect MDR1 mRNA, reverse transcriptase-polymerase chain reaction (RT-PCR) was performed in all samples. Furthermore, RNA dot-blot analysis with digoxigenin-labeled RNA probe and immunohistochemistry with JSB-1 and C-219 antibodies for P-glycoprotein were employed in 34 and 37 samples in soft tissue sarcomas, respectively. We compared these three detection techniques. Of the 39 specimens, 18 (46%) showed MDR1 PCR products. Liposarcomas (six of 11), malignant fibrous histiocytomas (six of nine), leiomyosarcomas (four of six), fibrosarcomas (two of three) revealed high or intermediate MDR1 expression at high frequency. No MDR1 expression was detectable in malignant schwannomas, synovial sarcomas, or epithelioid sarcomas. Of seven benign soft tissue tumors, one ganglioneuroma and one lipomatosis showed low levels of MDR1 expression. By RNA dot-blot analysis, MDR1 transcripts were detectable in 12 of 34 specimens (35%). Four samples were negative by dot blot despite positivity with RT-PCR. Concordance between MDR1 expression by RNA level with RT-PCR and dot blot and at the protein level with immunohistochemistry using C-219 was found in 16 (47%) of the 34 comparable specimens. Eight samples showed positive immunoreactivity for C-219 despite negative results in RT-PCR and dot-blot analysis. The intrinsic MDR1 expression in soft tissue sarcoma seemed to depend on certain tumor types, such as liposarcoma, malignant fibrous histiocytoma, leiomyosarcoma, and fibrosarcoma. For the evaluation of MDR1 expression, RT-PCR is useful because of its relative simplicity and sensitivity. However, the clinical significance of such low levels of MDR1 expression detected only by RT-PCR must be discussed within systematically treated patient groups.
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PMID:Reverse transcriptase-polymerase chain reaction amplification of MDR1 gene expression in adult soft tissue sarcomas. 872 96

Recombinant adeno-associated viruses (rAAV) are attractive tools for gene therapy. We designed plasmids in which the human multidrug resistance gene (hMDR1) cDNA was placed downstream from portions of the 5' end of AAV including either a 234-bp cassette or the entire AAV p5 promoter. The drug-resistant phenotype conferred by the P-glycoprotein (Pgp) efflux pump encoded by the hMDR1 cDNA was used to select NIH-3T3 cells transfected with these plasmids. The 234-bp region alone showed promoter activity similar in strength to that of the entire p5 promoter or the retroviral Harvey murine sarcoma virus long terminal repeat (LTR); this result demonstrates that the 234-bp cassette might be used as a small and efficient promoter in rAAV designed to express large genes approaching the packaging limit of AAV particles. After transfection of AAV-MDR1 vectors, the integration of MDR1 sequences into the host cell genome was demonstrated by fluorescent in situ hybridization (FISH). In addition, Southern analysis of low-molecular-weight DNA extracted from drug-resistant cells grown under continuous selection pressure indicated the persistence of nonintegrated AAV-MDR1 plasmids. Coordinate expression of Pgp and human glucocerebrosidase (hGC) was observed in drug-selected NIH-3T3 cells transfected with a bicistronic vector in which MDR1 cDNA was linked to hGC cDNA via the encephalomyocarditis internal ribosome entry site sequence. Moreover, following a single intravenous injection of the bicistronic vector complexed to cationic liposomes into recipient mice, delivery of MDR1 and GC cDNAs was achieved in all the organs we tested. Our results demonstrate that the efficiency of liposomes as vehicles for in vitro and in vivo gene delivery, the advantages of AAV-vectors, and the use of MDR1 as a selectable marker might be successfully combined in gene therapy protocols.
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PMID:Expression of the human multidrug resistance and glucocerebrosidase cDNAs from adeno-associated vectors: efficient promoter activity of AAV sequences and in vivo delivery via liposomes. 881 18

Soft tissue sarcomas comprise a heterogeneous group of mesenchymal tumors accounting for less than one-percent of adult neoplasms. In the last few years, the use of adjuvant chemotherapy has been proposed for the treatment of these lesions in order to obtain a better systemic control, but its usefulness is still controversial. In this study, we evaluated whether P-glycoprotein, a membrane protein strictly associated with multidrug resistance, is overexpressed in soft tissue sarcomas. By using human multidrug resistant sarcoma cell lines as controls, we analyzed P-glycoprotein expression in 34 primary and in 23 relapsed soft tissue sarcomas of the extremities. Overexpression of P-glycoprotein was found in 6 out of 34 primaries (18%) and in 8 out of 23 relapses (35%). In particular, in malignant fibrous histiocytoma, the most frequent soft tissue sarcoma of adults, P-glycoprotein overexpression was found in 23% of primary untreated cases, in agreement with the reported relapse rate of this tumor after surgery and chemotherapy. These data suggest that, in soft tissue sarcomas, overexpression of P-glycoprotein may be of prognostic value and that the assessment of P-glycoprotein expression may be useful for the design of chemotherapy protocols.
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PMID:Evaluation of P-glycoprotein expression in soft tissue sarcomas of the extremities. 886 15

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

A variant of the multidrug-resistant human sarcoma cell line Dx5 was derived by co-selection with doxorubicin and the cyclosporin D analogue PSC 833, a potent inhibitor of the multidrug transporter P-glycoprotein. The variant DxP cells manifest an altered phenotype compared with Dx5, with decreased cross-resistance to Vinca alkaloids and no resistance to dactinomycin. Resistance to doxorubicin and paclitaxel is retained. The multidrug resistance phenotype of DxP cells is not modulated by 2 microM PSC 833 or cyclosporine. DxP cells manifest a decreased ability to transport [3H]cyclosporine. DNA heteroduplex analysis and sequencing reveal a mutant mdr1 gene (deletion of a phenylalanine at amino acid residue 335) in the DxP cell line. The mutant P-glycoprotein has a decreased affinity for PSC 833 and vinblastine and a decreased ability to transport rhodamine 123. Transfection of the mutant mdr1 gene into drug-sensitive MES-SA sarcoma cells confers resistance to both doxorubicin and PSC 833. Our study demonstrates that survival of cells exposed to doxorubicin and PSC 833 in a multistep selection occurred as a result of a P-glycoprotein mutation in transmembrane region 6. These data suggest that Phe335 is an important binding site on P-glycoprotein for substrates such as dactinomycin and vinblastine and for inhibitors such as cyclosporine and PSC 833.
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PMID:Multidrug-resistant human sarcoma cells with a mutant P-glycoprotein, altered phenotype, and resistance to cyclosporins. 903 18


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