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)

Rat ascites hepatoma AH66 cells have lower sensitivity to Vinca alkaloids and anthracycline antibiotics than AH66F cells, a subline of AH66 cells. AH66 cells expressed P-glycoprotein, while the protein was not detectable in AH66F cells. There are two affinity sites for [3H]vinblastine binding in the AH66 cell membrane, while AH66F cells have only one affinity site. The high affinity [3H]vinblastine binding in AH66 cells was inhibited by Adriamycin, verapamil, nicardipine, and reserpine. The high affinity site of the binding may be the multidrug transporter, P-glycoprotein. [3H]Vinblastine binding was not influenced by adenosine 3'-5'-monophosphate (AMP), adenosine triphosphate (ATP), or guanosine triphosphate (GTP). The multidrug resistance in AH66 cells may depend on P-glycoprotein which is not modulated by nucleotide.
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PMID:Sensitivity to antitumor drugs and vinblastine binding to membrane in rat ascites hepatoma AH66 cells. 142 78

The major limitation to curative therapy for ovarian cancer is the development of drug resistance. Cyclosporin A (CsA), an immunosuppressive agent that has been used extensively in organ transplantation, also has been shown to decrease the resistance of cancer cells to some chemotherapeutic agents. Since cisplatin (CDDP) is the most common drug used for the treatment of ovarian cancer, we evaluated the potential of CsA to decrease resistance to CDDP in ovarian cancer cells selected for resistance to CDDP (A2780-CDDP). Although CsA significantly increased the sensitivity of A2780-CDDP cells to cytolysis by CDDP it did not increase CDDP sensitivity in the CDDP-sensitive parent cells (A2780), that is, CsA did not decrease basal resistance to CDDP. Both A2780-CDDP and A2780 are sensitive to cytolysis by Adriamycin (ADR). CsA significantly decreased the basal resistance of both cell lines to ADR. Interestingly, the effect of the protein synthesis inhibitors, emetine and cycloheximide, was similar to that of CsA, suggesting that CsA decreased selected resistance to CDDP and decreased basal resistance to ADR by affecting a protein synthesis-dependent resistance mechanism(s). In contrast to CsA and protein synthesis inhibitors, buthionine sulfoximine, an inhibitor of glutathione synthesis, decreased basal resistance of both cell lines to cytolysis by CDDP but not ADR, while verapamil, an inhibitor of P-glycoprotein, had no effect on cytolysis in either cell line. These results suggest that CsA may not decrease resistance to CDDP or ADR-mediated cytolysis by reducing glutathione or by inhibiting P-glycoprotein.
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PMID:The effects of cyclosporin A on the lysis of ovarian cancer cells by cisplatin or adriamycin. 142 96

A total of 15 samples (crude extracts and pure secondary metabolites) obtained from marine invertebrates collected from the offshore waters of British Columbia, Papua New Guinea, and Sri Lanka have previously been shown to exert cytotoxic activity in the in vitro L1210 leukemic bioassay. We screened these metabolites for in vitro cytotoxic activity against the drug-sensitive breast-tumor cell lines MCF-7, T-47D, ZR-75-1, and MDA-MB-231; the multidrug-resistant and P-glycoprotein (Pgp)-positive breast-tumor cell lines MCF-7 Adr and MDA-A1r; and normal and malignant human breast epithelial cells (HBEC) in primary culture. Eight samples exhibited significant [drug concentration resulting in a 50% decrease in cell growth as compared with controls (ED50), less than 25 micrograms/ml] dose-dependent cytotoxicity against the drug-sensitive cell lines; the ED50 values were as low as 0.004 micrograms/ml. Five of the eight samples exhibited significant cytotoxicity against the multidrug-resistant cell lines; the ED50 values were as low as 0.0006 micrograms/ml. Incubation of MCF-7 Adr cells with varying concentrations of compounds in the presence of Adriamycin demonstrated that none of the compounds tested interfered with Pgp function. Results obtained using HBEC in primary culture showed a wide range of chemosensitivities for a given drug against tissue taken from different patients, demonstrating the uniqueness of the response of different individuals to chemotherapy.
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PMID:In vitro screening of crude extracts and pure metabolites obtained from marine invertebrates for the treatment of breast cancer. 150 79

HL60 cells isolated for resistance to Adriamycin are multidrug resistant and defective in the cellular accumulation of drug. These cells do not contain detectable levels of P-glycoprotein. At the present time the mechanism by which HL60/Adr cells reduce drug levels is not known. To gain insight into the molecular basis of this system we have analyzed transport pathways and the distribution of daunomycin in drug-resistant HL60 cells. Using a cell fractionation technique we find that the major portion of daunomycin accumulates in the nucleus of both sensitive and resistant cells. Further studies reveal, however, that under efflux conditions drug is retained in the nuclei of sensitive cells but rapidly removed from the nuclei of the resistant isolate. Essentially identical results are obtained when daunomycin distribution and transport are analyzed by fluorescence microscopy. A number of agents which alter transport processes have been tested for their effect on drug accumulation in resistant cells. Thus we find that brefeldin A, which disassembles Golgi, and various lysosomotropic agents such as chloroquine and methylamine do not affect drug levels. In contrast the protonophores nigericin and monensin induce an increase in drug accumulation and inhibit efflux. The results of this study thus suggest that resistance in HL60/Adr cells is related to a mechanism whereby drug is transported to the nucleus and thereafter rapidly redistributed to the extracellular space. The molecular basis of this transport pathway is not known.
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PMID:Drug transport mechanisms in HL60 cells isolated for resistance to adriamycin: evidence for nuclear drug accumulation and redistribution in resistant cells. 159 27

We investigated the effects of seven isoquinoline derivatives in overcoming resistance to vinblastine in Adriamycin-resistant mouse leukemia P388/ADR cells and human myelogeneous leukemia K562/ADR cells. N-(2-Methylpiperazyl)-5-isoquinoline-sulfonamide (H-7), N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide (H-8), and N-(2-aminoethyl)-5-isoquinolinesulfonamide (H-9) did not reverse resistance to vinblastine in these resistant cells. N-[2-[N-[3-(4-Chlorophenyl)-2-propenyl]amino]ethyl]-5- isoquinolinesulfonamide (H-86) and N-[2-[N-[3-(4-chlorophenyl)-1-methyl-2-propenyl]- amino]ethyl]-5-isoquinolinesulfonamide (H-87) caused significant accumulation of intracellular vinblastine and marked reversal of the resistance to vinblastine in both resistant cell lines. Addition of a formyl group at the terminal amino group of H-86 (H-85) or addition of an aminoethyl group to the nitrogen atom at the sulfonamide group of H-86 (W-66) reduced those activities. The activity on vinblastine accumulation seems to correlated with the hydrophobicity of the compounds. The compounds that effectively reversed resistance to vinblastine inhibited [3H]vinblastine efflux and photoaffinity labeling of P-glycoprotein with a photosensitive analogue of vinblastine, N-(p-azido-(3-[125I]iodo)-salicyl)-N'-beta-aminoethylvindesine. Although these isoquinoline derivatives inhibited protein kinase A and protein kinase C with various potencies, these inhibitory activities did not correlate with the reversal of drug resistance. These results indicate that hydrophobic isoquinoline derivatives reverse multidrug resistance due to the suppression of drug binding to P-glycoprotein, without involvement of their activities on protein kinase A and protein kinase C.
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PMID:Overcoming of vinblastine resistance by isoquinolinesulfonamide compounds in adriamycin-resistant leukemia cells. 161 7

A newly synthesized dihydropyridine analogue, 2-[benzyl(phenyl)-amino]ethyl 1,4-dihydro-2,6-dimethyl-5-(5,5-dimethyl-2-oxo-1,3,2-dioxaphosphorina n-2-yl)-1- (2-morpholinoethyl)-4-(3-nitrophenyl)-3-pyridinecarboxylate (PAK-200), at 5 microM inhibited the efflux of [3H]vincristine from KB-C2 cells and increased the accumulation of [3H]vincristine in KB-C2 cells to a level similar to that in KB-3-1 cells. PAK-200 inhibited the photoaffinity labeling of P-glycoprotein in KB-C2 membranes by [3H]azidopine. At 5 microM, PAK-200 enhanced the cytotoxic effect of Adriamycin on drug-sensitive KB-3-1 cells, multidrug-resistant KB-8-5 cells, and two human colorectal carcinoma tumor lines, COK-28LN and COK-36LN, by factors of 2, 5, 2, and 3 times, respectively. The calcium antagonistic activity of PAK-200 was about 1000 and 5 times lower than that of another dihydropyridine analogue, nicardipine, and of verapamil, respectively. PAK-200 in combination with Adriamycin completely suppressed the growth of KB-3-1 and COK-36LN and partially suppressed the growth of KB-8-5 but had no significant effect on COK-28LN cells xenografted in nude mice. The level of MDR1 expression of COK-36LN was about 3 times higher than that of COK-28LN, but lower than that of KB-8-5 cells. These results suggest that the interaction of PAK-200 with P-glycoprotein may be partly correlated with the enhancement of the antitumor effect of Adriamycin on xenografted KB-8-5 and COK-36LN cells in nude mice.
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PMID:Effect of a dihydropyridine analogue, 2-[benzyl(phenyl)amino]ethyl 1,4-dihydro-2,6-dimethyl-5-(5,5-dimethyl-2-oxo- 1,3,2-dioxaphosphorinan-2-yl)-1-(2-morpholinoethyl)-4-(3-nitrophenyl)-3 -pyridinecarboxylate on reversing in vivo resistance of tumor cells to adriamycin. 161 39

Flow cytometry and laser scanning confocal imaging have been used to analyze the uptake of the anticancer topoisomerase II poison mitoxantrone by intact mammalian cells and the results correlated with the induction of DNA damage. Unlike Adriamycin, mitoxantrone displays only minimal levels of red fluorescence when excited at 514 wavelength. However, using these excitation and emission conditions, flow cytometry could detect low levels of fluorescence in human transformed fibroblasts exposed to high concentrations (5-20 microM) of mitoxantrone for 1 h. Over this dose range whole cell fluorescence was a function of cell size and increased with drug concentration while drug-induced DNA-protein cross-linking showed saturation. Confocal microscopy revealed the time- and dose-dependent appearance of fluorescence, interpreted here as reflecting the disposition of drug molecules, preferentially within the cytoplasm, nuclear membrane, and nucleoli. This pattern contrasted with the intense intranuclear fluorescence observed in Adriamycin-treated human cells. Loss of the nuclear membrane during mitosis resulted in an apparent increase in chromatin-associated fluorescence. Photon counting procedures revealed a predominantly cytoplasmic, possibly lysosomal, location for fluorescence from human cells exposed for 1 h to a low but cytotoxic concentration (0.1 microM, yielding approximately 90% cell kill) of mitoxantrone. At this low concentration, human cells displayed minimal levels of DNA strand cleavage or DNA-protein cross-linking. Murine cells, displaying mitoxantrone resistance as part of the P-glycoprotein-mediated multidrug resistance phenotype, showed specific extinction of mitoxantrone-associated fluorescence from inside nuclei but not from within extranuclear compartments. The study demonstrates the feasibility of high resolution studies on the intracellular distribution of mitoxantrone in intact living cells. We suggest a mechanism by which cytoplasmic sequestration of mitoxantrone may be important in determining the response of normal and multidrug-resistant cells as they attempt to progress through mitosis.
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PMID:Subcellular distribution of the anticancer drug mitoxantrone in human and drug-resistant murine cells analyzed by flow cytometry and confocal microscopy and its relationship to the induction of DNA damage. 161 77

Data obtained from clinical samples suggest that non-P-glycoprotein mechanisms of multidrug resistance are likely to be important in small cell lung cancer. The H69AR cell line was derived from the H69 small cell lung cancer cell line by selection in doxorubicin (adriamycin) and does not overexpress P-glycoprotein as detected by monoclonal antibody C219 (S.E.L. Mirski et al., Cancer Res., 47:2594, 1987). In the present study, we have used the polymerase chain reaction to verify that H69AR cells do not overexpress P-glycoprotein. Further, transport studies with radiolabeled daunomycin, VP-16, and vinblastine demonstrate that differences in net drug accumulation or efflux are not part of the resistance phenotype of H69AR cells. To determine if H69 and H69AR cells differ in their susceptibility to drug-induced DNA damage, DNA single-strand breaks (SSB) generated by VP-16 and Adriamycin were measured using the alkaline filter elution assay. Readily detectable SSB were produced in intact H69 cells by 5 microM VP-16, but 100 microM drug was required to cause similar damage in H69AR cells. H69AR cells were also resistant to SSB induction by Adriamycin. The formation of SSB by VP-16 was similarly reduced in isolated H69AR nuclei, indicating that resistance to this drug resides, at least in part, in the nucleus. No significant differences were observed in the rate or extent of repair of VP-16-induced DNA SSB in H69 and H69AR cells. The reduced susceptibility to drug-induced SSB may result from alterations in topoisomerase II, since less immunoreactive topoisomerase II was found in H69AR cells compared to H69 cells. However, changes in topoisomerase II cannot explain the resistance of H69AR cells to such drugs as the Vinca alkaloids and gramicidin D, indicating that multiple mechanisms contribute to drug resistance in this small cell lung cancer cell line.
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PMID:Non-P-glycoprotein-mediated multidrug resistance in a small cell lung cancer cell line: evidence for decreased susceptibility to drug-induced DNA damage and reduced levels of topoisomerase II. 167 32

In a P-glycoprotein-negative cell line, GLC4-Adr90, a 75-fold acquired Adriamycin (Adr) resistance coincided with a reduced cellular Adr level, an increased detoxifying capacity (glutathione (GSH) and glutathione S-transferase (GST) elevated), and a reduced topoisomerase-II (topo-II) activity compared with the parent cell line GLC4. The effect on Adr resistance of buthionine sulfoximine (BSO, GSH synthesis inhibitor), was studied alone or in combination with verapamil (drug-efflux inhibitor), docosahexaenoic acid (membrane lipid domain affector), ethacrynic acid (GST inhibitor), aphidicolin (DNA-polymerase-alpha inhibitor) or novobiocin (NOV, topo-II inhibitor). Cytotoxicity was tested using a microculture tetrazolium assay. In GLC4-Adr90, BSO and NOV increased Adr-induced cytotoxicity 12.9-fold and 1.8-fold respectively. The combination of BSO plus NOV showed an additive effect, decreasing the Adr resistance factor from 75 to 2.7. Combination of modulators of Adr resistance directed at different resistance mechanisms appears promising in vitro.
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PMID:Combined in vitro modulation of adriamycin resistance. 168 Aug 15

A series of doxorubicin-resistant variants of the human LS174T colon carcinoma cell line was generated by stepwise selection. These variants also exhibited increased resistance to vinblastine, etoposide, cis-platinum, and melphalan, suggesting that resistance was multifactorial. The parental LS174T cell line and 3 resistant variants were examined for over-expression of P-glycoprotein, changes in total cellular glutathione content, and the level of topoisomerase-II expression. Changes in all of these parameters were observed in the doxorubicin-selectants, along with a marked shift in the intracellular distribution of doxorubicin. P-glycoprotein RNA and protein levels were increased 2- to 3-fold in the resistant variants, while total glutathione levels increased 1.4- to 2.1-fold. Treatment with DL-buthionine-[S,R]-sulfoximine, an inhibitor of glutathione biosynthesis, was able to reverse resistance to cis-platinum and melphalan in these variants, but had little effect on doxorubicin resistance. Immunoblot analysis of cell extracts indicated that the level of DNA topoisomerase II (EC 5.99.1.3) in the doxorubicin-resistant LS174T cells was decreased by approximately 50% compared with the parental cell line. Doxorubicin was mainly localized to the cytoplasm in resistant cells, while in the parent line it was mostly found in the nucleus. This constellation of changes suggests that selection with doxorubicin activated several mechanisms of resistance involving drug transport, metabolism, and ability to reach nuclear target sites.
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PMID:Multifactorial resistance in LS174T human colon carcinoma cells selected with doxorubicin. 168 Aug 16


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