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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the expression of P-glycoprotein (P-gp) in adult T-cell leukemia (ATL) samples from 25 patients. Based on immunoblotting with a monoclonal antibody against P-gp, C219, 8 of 20 ATL patients were P-gp positive at the initial presentation. All 6 patients at the relapsed stage were P-gp positive, and refractory to chemotherapy. The expression of MDR1 mRNA in P-gp-positive ATL cells was increased at the relapsed stage of one patient. P-gp of this patient was photolabeled with [3H]azidopine and the labeling was inhibited with nimodipine, vinblastine and progesterone. These results suggest that P-gp expressed in ATL cells from patients at relapsed stage has the same binding site(s) for the drugs as that in multidrug resistant cells, and is correlated with the refractory nature of the cells to chemotherapy.
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PMID:Expression of P-glycoprotein in adult T-cell leukemia cells. 197 91

Acquired resistance developed after chemotherapy is characterized by lower sensitivity to anticancer agents. We utilized two monoclonal antibodies (MABs): MRK16 which recognized 170 to 180 kD P-glycoprotein and MRK20 which recognized 85 kD protein, to investigate the frequency of multidrug-resistant cancer cells appearing during treatment of 23 cases of leukemias and 27 cases of malignant lymphomas. The reactivities of these MABs with lymphocytes and blastic cells were examined by flow cytometry and immunocytochemistry. The following findings were obtained. First, among 50 cases, increases in MRK16-reactive cells and MRK20-reactive cells were noted in 17 cases (34%) and 28 cases (56%), respectively. Second, the increase of MRK16-positive cells in three cases and the increase of MRK20-positive cells in two cases were correlated with dosages of the corresponding anticancer drugs used. Although we investigated the total amounts of anti-cancer drugs used, we were not able to detect exactly when P-glycoprotein recognized by MRK16 and the 85 kDa protein recognized by MRK20 appeared in these resistant cells during treatment. More cases will be required to investigate the significance between treatment and reactivity of MRK16 or MRK20 with leukemia or lymphomas cells.
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PMID:High-level expression of P-glycoprotein and 85 kD protein as assessed by flow cytometry and immunocytochemistry in leukemias and malignant lymphomas. 198 71

Newly synthesized 1,4-dihydropyridine derivatives had been screened to determine whether they could overcome vincristine (VCR)-resistance in VCR-resistant (P388/VCR) leukemia-bearing mice, and six compounds had strong reversing ability among the screened compounds. We further determined whether NK-250 and NK-252 among the six compounds could potentiate cytocidal activities of etoposide (VP16) as well as VCR against both multidrug-resistant (MDR) cell line (VJ-300) and atypical MDR cell line (KB/VM-4). Both VJ-300 and KB/VM-4 were derived from the same parental human cancer KB cell line: VJ-300 cells showed enhanced expression of a MDR-specific glycoprotein of molecular weight of 170,000 Da (gp170) while KB/VM-4 cells were selected as teniposide (VM26)-resistant cell line with no expression of gp170. NK-250 and NK-252 potentiated the cytotoxic action of VCR about 2- to 10-fold against KB and KB/VM-4 cells, and they almost completely reversed VCR-resistance in VJ-300 cells. By contrast, NK-250 and NK-252 potentiated the cytotoxic action of VP16 about 2-fold against KB cells while they reversed 5- to 10-fold VP16-resistance in both VJ-300 and KB/VM-4 cells. The reversal effect by NK-250 and NK-252 of VCR-resistance in VJ-300 cells appeared to be due to enhanced cellular accumulation of radioactive VCR through interaction to 170-kDa P-glycoprotein. The potentiation effects by these dihydropyridines of VCR and VP16 on KB or KB/VM-4 cells also appeared to be due to enhanced accumulation of radioactive VP16 or VCR, but the effects might be mediated through other mechanisms, plausibly enhanced cellular uptake of the drugs.
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PMID:Potentiation of etoposide and vincristine by two synthetic 1,4-dihydropyridine derivatives in multidrug-resistant and atypical multidrug-resistant human cancer cells. 201 41

NC-190, a benzophenazine derivative (N-beta-dimethylaminoethyl 9-carboxy-5-hydroxy-10-methoxy-benzo[a]phenazine-6-carboxamide), was effective against multidrug-resistant human and mouse tumor cells in vitro and in vivo. When vincristine (VCR)-resistant P388 leukemia-bearing mice were treated with an optimal dose of NC-190, four of six mice were cured, whereas treatment of mice with VCR resulted in only a marginal increase in life span. The compound also showed chemotherapeutic effect against Adriamycin-resistant P388 leukemia-bearing mice and was effective against various multidrug-resistant human and murine tumor cells in vitro. Its cytotoxicity to multidrug-resistant K562 cells was not enhanced by the addition of verapamil. The accumulation of NC-190 in multidrug-resistant K562 cells was slightly lower than that observed in sensitive K562 cells; the compound did not efficiently inhibit the binding of VCR to the plasma membrane of resistant cells, indicating that NC-190 has little affinity for P-glycoprotein. NC-190 inhibited the activity of DNA topoisomerase II. These observations suggest that NC-190 (1) is not transported out of resistant cells by P-glycoprotein and (2) inhibits DNA topoisomerase II activity in the cells, resulting in its likely effectiveness against various multidrug-resistant tumor cells.
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PMID:A benzophenazine derivative, N-beta-dimethylaminoethyl 9-carboxy-5-hydroxy-10-methoxy-benzo[a]phenazine-6-carboxamide, as a new antitumor agent against multidrug-resistant and sensitive tumors. 216 Dec 96

Our human T-cell leukemia line, CEM/VM-1, selected for resistance to VM-26 (teniposide), is cross-resistant to several drugs that interact with topoisomerase II, including VP-16 (etoposide), 4'-(9-acridinylamino)methanesulphon-m-anisidide, daunorubicin, and mitoxantrone. However, in contrast to cell lines exhibiting multidrug resistance (MDR) associated with overexpression of P-glycoprotein, this line is not cross-resistant to the Vinca alkaloids, is not impaired in drug accumulation, and does not overexpress the mdrl gene (Cancer Res., 47: 1297, 5455, 1987). More recently we found that nuclear extracts of these cells exhibit decreased topoisomerase II catalytic and cleavage activity, compared to the drug-sensitive line (Biochemistry, 1988). These results suggest that an alteration in topoisomerase II or a modulator of this enzyme may be responsible for this altered topoisomerase II-form of multidrug resistance (at-MDR). In the present work, we studied the somatic cell genetics of at-MDR. We produced hybrid cell lines by polyethylene glycol-mediated fusion of the CEM/VM-1 line with a hypoxanthine-guanine phosphoribosyl transferase-deficient, ouabain-resistant CEM line (CEM.AG1.OU1.5) that exhibits VM-26 sensitivity. Ten of the hybrid lines that grew in selective medium were randomly chosen for expansion and four were analyzed for both DNA content by flow cytometry and VM-26 sensitivity in a 72-h growth inhibition assay. The hybrid lines all contained approximately 2x DNA compared to unfused controls, indicating that the fusions were successful. The IC50 for VM-26 in 3 of the 4 lines was the same as that of the sensitive controls, ranging from 4.7 to 7.4 x 10(-8) M, and another was 76 x 10(-8) M. These data indicate that drug sensitivity was reconstituted by the hybridization procedure. By comparison, the VM-26 IC50 values in the CEM/VM-1 cells and CEM/VM-1 x CEM/VM-1 control "fusions" were 360 and 750 x 10(-8) M, respectively. To determine whether a topoisomerase II-mediated function was reconstituted in the hybrids, we measured drug-stimulated DNA cleavage ("cleavable complex formation"). Using 32P-labeled pBR322 DNA as substrate with nuclear extracts from drug sensitive cells, 100 microM VM-26 maximally stimulated DNA cleavage by approximately 11-fold compared to no-drug controls.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Genetic characterization of the multidrug-resistant phenotype of VM-26-resistant human leukemic cells. 253 2

Using a DNA probe of mdr1 and an anti-P-glycoprotein monoclonal antibody (MRK16), the authors investigated 19 cases of adult acute leukemia patients (one M1, six M2, three M3, one M4, three M5, two L1, and three L2), comparing leukemia cells at the initial presentation (I) with those at the relapsed stage (R). By Southern hybridization analysis mdr1 DNA levels were not amplified in 32 samples from 19 patients (I: 14, R: 18). By Northern hybridization analysis mdr1 mRNA levels were not expressed in ten samples from seven patients (I: 4, R: 6). By indirect immunofluorescent assay with MRK16 antibody P-glycoprotein was not detected in 30 samples from 18 patients (I: 13, R: 17). Thus, P-glycoprotein expression and mdr1 gene amplification occurred infrequently not only in leukemia cells at the initial presentation but also in those at the relapsed cases and may not be a major cause of refractoriness to antileukemia drugs in adult acute leukemia.
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PMID:Increased P-glycoprotein expression and multidrug-resistant gene (mdr1) amplification are infrequently found in fresh acute leukemia cells. Sequential analysis of 15 cases at initial presentation and relapsed stage. 256 11

Two monoclonal antibodies of F (ab')2 form, MRK 16 and MRK 20 that recognize P-glycoprotein and P85 kD protein respectively, were useful to detect multidrug resistant cells in human lymphoma, leukemia and gastrointestinal cancer cell lines. They were classified into 4 groups: Group I (4 cell lines) was insensitive to vinca alkaloids, anthracyclines, etoposide (VP-16) and actinomycin-D (ACT-D), and reactive to MRK 16 and MRL 20. Group II (2 cell lines) was insensitive to vincristine (VCR), but not reactive to both antibodies. Group III (3 cell lines) was insensitive to anthracyclines and VP-16, but sensitive to vinca alkaloids and ACT-D, and reactive to MRK 20 but not to MRK 16. Group IV (all other cell lines) was sensitive to these drugs, and not reactive to both antibodies. MRK 16 detects P-glycoprotein-associated multidrug resistance (MDR), while MRK 20 detects P 85kd-associated novel MDR. These monoclonal antibodies were useful for detection of MDR cells in clinical samples.
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PMID:[Detection of multidrug resistant cells in human malignant diseases by monoclonal antibodies and strategy to eradicate resistant malignant cells]. 256 3

The aim of this study was to find out whether the membrane glycoprotein P-170 can be detected in human tumours with both acquired and intrinsic resistance to chemotherapeutic agents using monoclonal antibodies (265/F4 and C219) and the streptavidin-biotinylated phycoerythrin complex method. Pretreated leukaemia cells and untreated lung and ovarian carcinomas were analysed. Two plasmacytomas and one leukaemia expressed high levels of P-glycoprotein, whereas two leukaemias showed moderate, and three leukaemias no expression of this protein. The intrinsic resistance was analysed with a panel of four human epidermoid lung cancer xenografts grown in nude mice. The expression of P-glycoprotein could be correlated with the degree of resistance. In addition, one out of five ovarian carcinomas revealed a high level of P-glycoprotein.
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PMID:Detection of the multidrug resistant phenotype in human tumours by monoclonal antibodies and the streptavidin-biotinylated phycoerythrin complex method. 256 14

P-glycoprotein is a plasma membrane protein believed to mediate resistance to natural product drugs such as vincristine, Adriamycin, and actinomycin D. To facilitate the study of human P-glycoprotein, monoclonal antibodies (designated HYB-612, HYB-241, and HYB-195) were raised against vincristine-resistant human neuroblastoma (SH-SY5Y/VCR) cells. The antibodies recognize a Mr 180,000 plasma membrane phosphoglycoprotein produced in increased amounts in SH-SY5Y/VCR as well as in vincristine-resistant human neuroepithelioma (MC-IXC/VCR), vinblastine-resistant human leukemia (CEM/VLB100), and actinomycin D- or vincristine-resistant Chinese hamster (DC-3F/AD X and DC-3F/VCRd-5L) cells, as compared to control cells. Radioimmunoprecipitation of proteins in cells metabolically labeled with [35S]methionine, 32Pi, or [3H]glucosamine and Western transfer procedures were used for these studies. Characterization of the HYB-612 or HYB-241 antigen by destructive degradation produced a pattern of results typical of a conformation-dependent protein epitope. HYB-612 recognizes complexes of the Mr 180,000 antigen with an iodinated photoaffinity analogue of vinblastine or with tritiated azidopine. Furthermore, pretreatment of MC-IXC and MC-IXC/VCR cells with HYB-612 or HYB-241 before measurement of tritium-labeled actinomycin D or vincristine uptake increases the amount of drug accumulation in resistant, but not in sensitive, cells. Of importance is the fact that the Mr 180,000 protein is expressed in cells which also contain a Mr 170,000 P-glycoprotein. The relative amounts of the Mr 180,000 and 170,000 species vary from one drug-resistant cell line to another. Evidence that the Mr 180,000 protein is a P-glycoprotein and that there is a conserved complex pattern of resistance-related surface proteins in multidrug-resistant cells is presented in this report.
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PMID:Characterization of monoclonal antibodies recognizing a Mr 180,000 P-glycoprotein: differential expression of the Mr 180,000 and Mr 170,000 P-glycoproteins in multidrug-resistant human tumor cells. 256 79

P-glycoprotein gene (mdrl) amplification and expression were examined in murine leukaemia P388/DX and melanoma B16VDXR cell lines, which exhibit a high level of resistance to a selecting agent, doxorubicin, and express a multidrug-resistant phenotype because they are cross-resistant to multiple cytotoxic drugs. The multidrug-resistant phenotype was obtained in different conditions of selection (in vivo and in vitro for P388/DX and B16VDXR, respectively). In both multidrug-resistant cell lines, an increased expression of P-glycoprotein gene (5 kb transcript detected in Northern blots) was observed and the level of P-glycoprotein mRNA correlated with the degree of resistance. In addition, high molecular weight mRNAs homologous to mdrl gene sequence were consistently detected only in P388/DX cells. Overexpression was associated with a high level of gene amplification only in resistant melanoma cells, whereas it occurred in P388/DX cells with a marginal increase in gene copy number. These results, suggesting that different genetic mechanisms could be responsible for P-glycoprotein overexpression, emphasise the complexity of genetic regulation that may affect tumour cell sensitivity to cytotoxic agents.
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PMID:P-glycoprotein gene amplification and expression in multidrug-resistant murine P388 and B16 cell lines. 256 7


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