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)

Multidrug resistance in Chinese hamster ovary cells is associated with the Mr 170,000 surface glycoprotein. Using our monoclonal antibody to this protein, we have isolated a complementary DNA clone from an expression vector library. This complementary DNA recognizes a 4.5-kilobase mRNA in drug-resistant but not-sensitive Chinese hamster ovary cells; it also recognizes a 5.0-kilobase mRNA in our Adriamycin-resistant subline of the MDA-231 human breast cancer cell line which is not expressed in the drug-sensitive parent line. Southern blot analysis shows that the P-glycoprotein sequences are greatly amplified in resistant Chinese hamster ovary cells but not in the resistant human breast cancer cells, indicating that amplification and expression of the Mr 170,000 P-glycoprotein gene are not necessarily coordinate events. Amplification of this gene may not be required for multidrug resistance in human cells.
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PMID:P-glycoprotein expression in human breast cancer cells. 382 99

Analysis of the cell membrane of Adriamycin (doxorubicin)-resistant UV-2237 ADMR murine fibrosarcoma cells revealed a 170,000-dalton component that is not found in the drug-sensitive parent or revertant cells. Immunoblot (Western blot) analysis showed that this component is similar to the 170,000-dalton P-glycoprotein found on the surface of Chinese hamster ovary cells that exhibit multidrug resistance. Thus, multidrug resistance and P-glycoprotein expression apparently can occur in a wide variety of cells, including the metastatic murine solid tumor cell line described here.
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PMID:Expression of cell surface P-glycoprotein by an adriamycin-resistant murine fibrosarcoma. 614 5

We isolated revertant and resistant clones from multidrug-resistant K562/ADM cells and evaluated the expression of P-glycoprotein and the DNA copy number of MDR1. The 9 revertant clones contained 2- to 26-fold DNA copies of MDR1; however, they expressed an extensively decreased P-glycoprotein compared with K562/ADM, while the 10 multidrug-resistant clones contained 4- to 48-fold DNA copies, and the expression level of P-glycoprotein was dependent on the copy number of MDR1 DNA. The decreased expression of P-glycoprotein in the revertants was not due only to the loss of the copy number of MDR1 DNA. To elucidate the mechanism of P-glycoprotein expression decrease in the revertants, a revertant clone (R1-5) was fused with a multidrug-resistant clone (A2-1) or with a drug-sensitive clone isolated from K562. Compared with K562 clone, the A2-1 contained 32-fold MDR1 DNA copies and showed 131-fold resistance to Adriamycin. The revertant clone R1-5 contained 26-fold MDR1 DNA copies but expressed only 5% the P-glycoprotein of A2-1 cells and showed only 2-fold resistance to Adriamycin. For selection of intraspecific hybrids, a neomycin-resistant or a blasticidin S-resistant gene was introduced into clones by electroporation of pSV2neo or pSV2bsr. The introduction of these resistant genes did not alter the copy number or expression of MDR1 in the clones. Hybrid cells between R1-5bsr and A2-1neo were found to express 136 +/- 15% of the P-glycoprotein of A2-1 cells evaluated by quantitive flow cytometry. These hybrid cells contained 41- to 48-fold MDR1 copies and showed the multidrug-resistant phenotype, such as decrease of rhodamine123 accumulation and 120- to 210-fold resistance to Adriamycin (compared with K562), indicating that the 'silent' MDR1 genes in the revertant clone R1-5 were activated by cell fusion with an MDR clone. R1-5bsr x K562neo hybrids were found to contain 8- to 11-fold MDR1 copies and there was no increase in P-glycoprotein expression as compared with R1-5.
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PMID:Activation of silent MDR1 genes in revertant cells by fusion with multidrug-resistant cells. 749 79

Multiple myeloma is basically an incurable cancer. Most patients respond initially to chemotherapy with reduction in bone marrow (BM) plasma cells and monoclonal Ig levels, but the disease nearly always recurs and becomes refractory to therapy. The objective of this study was to characterize the expression of the multidrug transport pump, P-glycoprotein 170 (P-gp), in myeloma. The great majority of B cells from peripheral blood mononuclear cells (PBMCs) in myeloma express P-gp, detected by the monoclonal antibody MRK-16. P-gp+ blood B cells exhibit extensive DNA hyperdiploidy, suggesting replicative abnormality characteristic of malignant growth. We speculate these represent a stem cell population in myeloma. The proportion of B cells expressing P-gp was comparable among untreated myeloma patients and those treated with chemotherapy, biologic response modifiers, or off treatment. Among BM cells, P-gp was absent or low in untreated myeloma patients but was expressed at high levels on BM cells from patients previously treated with chemotherapy. For untreated patients the majority of B/plasma cells expressing P-gp are located in PBMCs, not the BM cells. Flow cytometric analysis of rhodamine 123 dye efflux indicated a functional P-gp that was efficiently blocked by verapamil or cyclosporin A (CsA). Both the CD11bhi CD19+ B cells and the T cells in myeloma PBMCs had active CsA-inhibited dye efflux, but monocytes lacked the ability to efflux dye. Nearly all CD38hi plasma cells from myeloma BM cells retained dye, indicating their lack of a functional transport pump. Thus, PBMC B cells may be the predominant set of drug-resistant tumor cells. Myeloma PBMC B cells were cultured with Adriamycin with or without CsA and drug toxicity evaluated by the induction of apoptosis, using flow cytometry to quantitate DNA disruption. No apoptosis was detectable at 0.01 microgram/mL adriamycin, the in vivo steady-state level, with or without CsA. With 0.1 microgram adriamycin, no apoptosis was detectable in the absence of CsA, but with CsA, 66% of B cells initiated DNA disruption, whereas most T cells were spared. This work suggests that currently used drug dosages are too low to effect P-gp+ B-cell death, even in the presence of CsA. We suggest that blood B cells comprise a highly drug-resistant subset of the myeloma B lineage that escapes conventional chemotherapy and may underlie the almost uniform fatal relapse in myeloma patients.
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PMID:Circulating monoclonal B cells expressing P glycoprotein may be a reservoir of multidrug-resistant disease in multiple myeloma. 750 31

P-glycoprotein (PGP), responsible for multidrug resistance (MDR) in cancer cells, is normally expressed in kidney proximal tubules and mesangium. PGP expression and function were studied in human mesangial cell cultures. MDR1 gene expression was demonstrated by reverse transcription-polymerase chain reaction. PGP expression was determined using MRK16 monoclonal antibody and its function was assessed by the efflux of rhodamine-123 (R123). R123 efflux had a half time of 25 +/- 5 s. Efflux was inhibited by cyclosporin A (10 microM), verapamil (10 microM), and vinblastine (100 microM) with half times of 380, 535, and 312 s, respectively. Incubation with MDR1-antisense oligonucleotide decreased R123 efflux (half time = 304 s). Verapamil, cyclosporin A, and PSC-833 augmented the cytotoxicity of Adriamycin by reducing the 50% maximal growth-inhibitory dose from 730 nM to 130, 110, and 90 nM, respectively. We conclude that human mesangial cells express MDR1 and demonstrate xenobiotic transport inhibitable by several known PGP substrates. Concomitant exposure of mesangial cells to PGP-transported drugs causes intracellular accumulation of toxic PGP substrates and ultimately damages the mesangial cells.
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PMID:Expression and function of P-glycoprotein in human mesangial cells. 752 96

Chinese hamster ovary (CHO) 10B2 cells do not stain well with indo-1 and thus cannot be used for experiments to measure intracellular calcium using this dye. We have isolated a mutant CHO cell line (CHO IS1) that stains quite well with indo-1 and that has virtually identical growth characteristics and heat sensitivity as the parent line. The mutant was isolated by sorting individual mutagenized cells with high indo-1 fluorescence and cloning them. Since it has been reported that cells with multiple drug resistance (MDR+) can pump out various fluorescent dyes, the mutant and parent lines were characterized for Hoechst 33342 staining, Adriamycin toxicity, and P-glycoprotein expression, which are markers of the MDR phenotype. P-Glycoprotein was measured with the C219 antibody using flow cytometry. Multidrug-resistant cells (CHRC5) were used as positive controls. The IS1 cells stained as well with Hoechst 33342 as fixed 10B2 cells, and much better than unfixed 10B2 cells. The IS1 cells were 10- to 30-fold more sensitive to Adriamycin than the 10B2 cells, and both cell lines were much more sensitive than the CHRC5 cells. The amount of P-glycoprotein was similar in both 10B2 and IS1 cell lines, but was about fivefold lower than the CHRC5 cells. Thus, the poor staining for indo-1 in the 10B2 cells may not be caused by the P-glycoprotein MDR pump, but by a different efflux pathway. Alternatively, the P-glycoprotein may be altered and less efficient in the CHO IS1 cells.
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PMID:Isolation and characterization of a Chinese hamster ovary cell mutant with improved staining for indo-1. 752 22

The efficacy of mitotane in providing objective tumour responses in patients with adrenocortical carcinoma (ACC), has been recently questioned. Experience with non specific chemotherapy is limited. Tumour responses have been reported with cisplatin administered as a single agent or in combination. Other reports however failed to show benefit from cytotoxic chemotherapy. The very low number of patients included in each study, mostly of them previously treated with mitotane, may account for these controversial results. The finding that multidrug resistance mediated by MDR-1/P-glycoprotein can be reverted by mitotane provides a rational basis for exploring the use of mitotane in combination with chemotherapeutic agents. In a multicenter cooperative (SWOG) phase II study, a combination of mitotane+cisplatin appeared active in advanced ACC, with 30% response rate in 37 eligible patients. These results prompted us to evaluate the activity of a combination chemotherapy of Eto-poside, Adriamycin and Cisplatin (EAP) in association with mitotane (4 g daily per os). Up to now we treated 6 patients, obtaining 3 partial responses. Recently, new drugs as suramin and gossypol have been show to have some activity in patients with surgically unresectable ACC, suggesting the need for further investigation. In conclusion, cytotoxic drugs+mitotane and new adrenocorticolytic/cytotoxic agents, should be explored as first line treatments in patients with advanced ACC. However, due to the extreme rarity of the disease, coordinated multicenter investigations should be highly encouraged.
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PMID:Cytotoxic chemotherapy for adrenocortical carcinoma. 754 29

The emergence of drug resistance is a major obstacle to effective cancer chemotherapy. The identification of novel agents that serve as selective, potent and nontoxic modulators of drug resistance is thus an important goal for improving the success of cancer treatment. Thaliblastine (TBL), a plant alkaloid and P-glycoprotein (P-gp) inhibitor, is presently shown to fully reverse 490-fold resistance to Adriamycin (AdR) in a multidrug-resistant (MDR) human breast cancer cell line (MCF/AdR) that overexpresses P-gp, whereas the same treatment had no effect on AdR cytotoxicity in the drug-sensitive parental MCF-7 cells. Mechanistic studies showed that this striking resistance reversal was achieved without alteration of cellular levels of glutathione and without inhibition of glutathione S-transferase, glutathione peroxidase or P450 reductase by TBL, each of which is significantly altered in MCF/AdR cells, and each of which has been proposed to contribute to AdR resistance in this MDR line. Rather, resistance reversal by TBL can be entirely explained by this drug's capacity to restore the intracellular accumulation of AdR in the resistant cells. These results establish that MDR associated with P-gp overexpression can be fully reversed by the potent P-gp inhibitor TBL. They further indicate that although changes in multiple drug-metabolizing enzymes may accompany the development of MDR, these multiple biochemical alterations need not correspond to multiple functional determinants for drug resistance.
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PMID:Complete reversal by thaliblastine of 490-fold adriamycin resistance in multidrug-resistant (MDR) human breast cancer cells. Evidence that multiple biochemical changes in MDR cells need not correspond to multiple functional determinants for drug resistance. 756 98

We wished to determine if the two nucleotide-binding domains (NBD) of P-glycoprotein are functionally equivalent and interchangeable, and if not, which segments and amino acids are important for proper function of each NBD within the context of the C- or N-terminal P-glycoprotien halves. For this, we constructed and tested the biological activity in yeast and mammalian cells of a series of chimeric mdr3 cDNAs in which discrete domains of the N-terminal NBD (NBD1) were replaced by the homologous segments of the C-terminal NBD (NBD2). Although most NBD1 segments could be replaced without loss of P-glycoprotein function, exchange of small segments near the Walker B motif caused a dramatic reduction in Adriamycin, actinomycin D, and colchicine resistance in LR73 cells, as well as in FK506 resistance and STE6 complementation in yeast. Site-directed mutagenesis identified amino acid positions 522-525 (ERGA-->DKGT) and 578 (Thr-->Cys) as essential for proper function of NBD1 in the context of the N-terminal half P-glycoprotein. In addition, the observed phenotype of the mutants (altered drug resistance profile) suggests that these residues may participate directly or indirectly in substrate interactions and are possibly implicated in signal transduction from NBDs to transmembrane domains, the primary sites of drug binding in P-glycoprotein.
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PMID:Functional dissection of P-glycoprotein nucleotide-binding domains in chimeric and mutant proteins. Modulation of drug resistance profiles. 761 12

The influence of the antiestrogen tamoxifen (TAM) on the activity of mitoxantrone (MXN), was evaluated against wild-type MCF-7/WT and their multidrug-resistant variant MCF-7/ADR cells. Multidrug resistance (MDR) in this cell line which was selected for resistance to Adriamycin (ADR), is associated with increased expression of P-glycoprotein (P-gp). In a clonogenic assay it was observed that TAM (1-10 microM) significantly enhanced the activity of MXN in the MCF-7/ADR but not in the drug-sensitive cell line. Isobologram analysis indicated that the effect of the combination was additive in the parental MCF-7/WT cells and strongly synergistic in the MDR MCF-7/ADR cells. Also, TAM (10 microM) caused a three-fold increase in the steady-state levels (Css) of MXN in MCF-7/ADR cells but did not modulate MXN levels in MCF-7/WT cells. The observed synergism in MCF-7/ADR cells was perhaps due to the increase in Css of MXN that may involve interaction of TAM with P-gp. The combination of MXN and TAM may be useful in the treatment of drug-sensitive and drug-resistant breast cancer.
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PMID:Effect of tamoxifen on mitoxantrone cytotoxicity in drug-sensitive and multidrug-resistant MCF-7 cells. 763 77

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