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)

Mechanisms contributing to reduced cytotoxic drug accumulation were studied in two multidrug-resistant (MDR) human lung cancer cell lines without P-glycoprotein expression. In these (non-small cell) SW-1573/2R120 and (small cell) GLC4/ADR MDR cells, the steady-state accumulation of [14C]daunorubicin was 30 and 12%, respectively, of that in the parent cells. When cells, at steady state, were permeabilized with digitonin, the amount of daunorubicin binding increased only in the resistant cells. The reduced accumulation of daunorubicin in the SW-1573/2R120 and GLC4/ADR cells was accompanied by a lower initial (2 min) uptake rate of this drug. No difference in initial efflux rate of daunorubicin from preloaded cells could be detected between sensitive and resistant SW-1573 cells. However, daunorubicin was extruded 5-fold faster from GLC4/ADR cells than from the parental cells. In the presence of the energy metabolism inhibitors sodium azide and deoxyglucose, the reduced daunorubicin accumulations in the SW-1573/2R120 and GLC4/ADR MDR cells were (almost) completely reversed. The effects of these inhibitors on drug uptake were already apparent during the earliest measured time points (less than 15 s). Also, the enhanced efflux of daunorubicin from GLC4/ADR cells was inhibited. In ATP-depleted cells, the intracellular pH was lowered by approximately 0.3 units in resistant as well as in sensitive cells. The lower intracellular pH, however, could not account for the increase in daunorubicin accumulation in the resistant cells. Also, for vincristine and etoposide, the increases in drug accumulation under energy-deprived conditions were more pronounced in the resistant SW-1573/2R120 cells than in the parent SW-1573 cells. These results suggest that accumulation of drugs in the non-P-glycoprotein MDR human lung carcinoma cell lines SW-1573/2R120 and GLC4/ADR is reduced by an energy-dependent drug export mechanism which prevents efficient transport of drug to the target. Since P-glycoprotein expression in lung tumors is generally low, these MDR lung cancer cell lines can be used as a model to study alternative mechanisms leading to multidrug resistance in this tumor type.
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PMID:Energy-dependent processes involved in reduced drug accumulation in multidrug-resistant human lung cancer cell lines without P-glycoprotein expression. 130 22

To identify the role of protein kinase C (PKC) isoforms in multidrug resistance in tumor cells, we examined the PKC isoform pattern in the multidrug resistant P388/ADR cell line and studied the effect of down regulation of PKC isoforms on intracellular daunorubicin accumulation and P-glycoprotein expression. Using monoclonal antibodies to PKC alpha, beta and gamma and flow cytometry technique we showed that P388/ADR cells overexpressed PKC alpha and beta as compared to drug sensitive P388 cells. Prolonged treatment of P388/ADR cells with phorbol myristate acetate (PMA), a procedure that is known to down regulate PKC, resulted in the down regulation of total PKC activity and the PKC beta isoform (at the protein level) that was accompanied by the correction of daunorubicin accumulation in P388/ADR cells. The level of expression of P-glycoprotein in PMA treated cells was similar to that of untreated cells. These results suggest that PKC beta regulates the drug efflux function of P-glycoprotein.
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PMID:Protein kinase C isoforms in multidrug resistant P388/ADR cells: a possible role in daunorubicin transport. 134 51

Multidrug resistance (MDR) in tumor cells is frequently associated with reduced cellular cytostatic drug accumulation, caused by the drug efflux protein, P-glycoprotein (Pgp). The action of Pgp in tumor cells can be detected by measuring the increase of daunorubicin accumulation upon blocking Pgp with drugs such as verapamil. A number of MDR cell lines have been described, characterized by decreased drug accumulation without Pgp being present. For such non-Pgp MDR cells no gene probes or functional assays are available to study this phenotype in clinical tumor specimens. We have worked out a method which enables the detection of drug-transport-related decreases in cellular daunorubicin accumulations without the need for the use of specific Pgp blockers. The cells used were SW-1573-, GLC4- and HT1080-sensitive cell lines, which accumulated (corrected for DNA content) 272%, 1,288% and 203% more daunorubicin than the non-Pgp MDR sublines SW-1573/2R120, GLC4/ADR and HT1080/DR4. When the plasma membranes of these MDR lines were permeabilized with 20 microM digitonin an increase to 282%, 1,260% and 239% of 14C-daunorubicin control accumulation was measured (at pH = 7.35). The intracellular pH measured with BCECF was the same in parent and corresponding MDR cells, excluding the role of pH differences in the measured effects. This method provides a tool allowing the detection of cellular mechanisms (including Pgp) which are related to active outward transport of daunorubicin.
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PMID:Probing daunorubicin accumulation defects in non-P-glycoprotein expressing multidrug-resistant cell lines using digitonin. 134 41

Activities of a newly synthesized compound, N-ethoxycarbonyl-7-oxo-staurosporine (NA-382), on cyclic AMP-dependent protein kinase (A-kinase), Ca2+/phospholipid dependent protein kinase (C-kinase), and drug resistance were investigated and compared with those of staurosporine. Protein kinase-inhibitory activity of NA-382 was lower but more selective to C-kinase than that of staurosporine. NA-382 was less toxic to P388 cells and at a non-cytotoxic concentration completely reversed the vinblastine (VBL) resistance of Adriamycin-resistant P388 (P388/ADR) cells without influence on the effect of VBL on the parental P388/S cells. However, the cytotoxicity of staurosporine was too high to give the combination effect with VBL. NA-382 dose-dependently increased VBL-accumulation and inhibited VBL-efflux in P388/ADR with higher potency than staurosporine. Both compounds inhibited the photolabeling of [3H]azidopine on 140-kDa P-glycoprotein in the plasma membrane from the resistant cells. These results suggest that a staurosporine analog, NA-382, reverses multidrug resistance by inhibiting the drug-efflux system or P-glycoprotein.
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PMID:Reversal of vinblastine resistance by a new staurosporine derivative, NA-382, in P388/ADR cells. 135 92

A series of 70 triazine derivatives have been synthesized and tested for their capacity to modulate multidrug resistance (MDR) in DC-3F/AD and KB-A1 tumor cells in vitro, in comparison with verapamil (VRP), a calcium channel antagonist currently used in therapy as an antihypertensive drug, which also shows MDR modulating activity. Among the 12 selected compounds, 16 (S9788) showed high MDR reversing properties in vitro (300- and 6-fold VRP at 5 microM in DC-3F/AD and KB-A1 cells, respectively) and induced a strong accumulation of adriamycin. The relationship between the increase of ADR accumulation and the fold reversal induced by these compounds and their lack of effects on the sensitive DC-3F cells suggest that they act mainly by inhibiting the P-glycoprotein (Pgp) catalyzed efflux of cytotoxic agents, as already described for a majority of MDR modulators. In vivo, in association with the antitumor drug vincristine (0.25 mg/kg), 16 (100 mg/kg) increased the T/C by 39% in mice bearing the resistant tumor cell line P388/VCR. According to these interesting properties, 16 was selected for a clinical development because it was more bioavailable than 34, even though it was less active.
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PMID:New triazine derivatives as potent modulators of multidrug resistance. 135 53

Cyclosporin A and verapamil are substrates for P-glycoprotein. Both agents are known to reverse multidrug resistance in cells overexpressing P-glycoprotein. In this investigation, we have examined the effects of cyclosporin A and verapamil on multidrug resistance in HL60/AR cells that lack P-glycoprotein. In addition, a correlation was sought between an alteration in plasma membrane potential as measured with cationic dye DIOC5 and overexpression of P-glycoprotein. HL60/AR cells accumulated 3 fold less daunorubicin than HL60 cells. The drug accumulation defect and drug resistance in HL60/AR cells were partially corrected by verapamil and buthionine sulfoximine. However, cyclosporin A had no detectable effect on daunorubicin accumulation or drug resistance in HL60/AR cells. The multidrug resistant P338/ADR cell line overexpressed P-glycoprotein and exhibited depolarization of plasma membrane when compared to its corresponding drug sensitive parental cell line. In contrast, HL60/AR cells lacked P-glycoprotein and plasma membrane potentials were similar to those of drug sensitive HL60 cells. These results suggest that [1] verapamil modulates daunorubicin transport by a mechanism independent of P-glycoprotein, [2] the mechanisms of reversal of multidrug resistance by verapamil and cyclosporin A are distinct, and [3] the plasma membrane depolarization in multidrug resistant cell lines that overexpress P-glycoprotein, as determined by DIOC5, may be due to an increased efflux of cationic dye by P-glycoprotein, rather than a true measurement of plasma membrane potential in multidrug resistant cells.
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PMID:Lack of reversal of daunorubicin resistance in HL60/AR cells by cyclosporin A. 136 15

The impact of the novel chemosensitizer ((2-isopropyl-1-(4-[3-N-methyl-N-(3,4-dimethoxy-beta- phenethyl)amino]propyloxy)benzenesulfonyl))indolizine (SR33557) on the intracellular distribution of doxorubicin (DOX) within the multidrug-resistant murine P388/ADR leukemia cell line was studied by fluorescence microscopy. We found that under conditions which modulated multidrug-resistant (30 microM SR33557 for 1 h), P388/ADR cells presented an original sequestration of DOX in large intracellular vesicles, where SR33557 is itself sequestered, as seen by colocalization studies. Colocalization experiments with lysosomal and mitochondrial probes suggest that these vesicles are neither mitochondrial in nature nor functional lysosomes. To investigate the biochemical basis for this effect, we studied the impact of SR33557 on the sphingolipid metabolism of P388/ADR cells. We observed that although P388/ADR cells normally catabolized exogenous [3H]sphingomyelin, when pretreated with SR33557 they showed almost complete inhibition of sphingomyelin breakdown. Finally, in order to demonstrate that the inability of P388/ADR cells to degrade sphingomyelin in the presence of SR33557 (which is a potent inhibitor of acid lysosomal sphingomyelinase) leads to phospholipid accumulation, we performed electron microscopy where we observed laminated inclusions. These morphological modifications are similar to those observed in Niemann-Pick disease lymphoblastoid cell lines which are inherently deficient in acid sphingomyelinase activity. The observation that, in the absence of SR33557, these Niemann-Pick disease cell lines presented similar DOX sequestration to that of SR33557-treated P388/ADR cells strongly suggests that DOX accumulates in SR33557-induced myeloid bodies. The redistribution of DOX within these vesicles, perhaps by preventing its expulsion by P-glycoprotein, may be a key in discovering the mechanism of action of SR33557.
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PMID:Modulation of subcellular distribution of doxorubicin in multidrug-resistant P388/ADR mouse leukemia cells by the chemosensitizer ((2-isopropyl-1-(4-[3-N-methyl-N-(3,4-dimethoxy-beta- phenethyl)amino]propyloxy)-benzenesulfonyl))indolizine. 142 91

The cytotoxic activity of cyclosporin A (CsA) and the three non-immuno-suppressive CsA analogues B3-243, WO-039 and B3-665 were studied in tumor cell lines representing both classical and atypical forms of multidrug resistance (MDR): T-ALL GM3639 L100 cells selected for vincristine (vcr) resistance and displaying characteristics of classical MDR, including P-glycoprotein (pgp) expression and increased drug efflux which can be inhibited by pgp blockers (e.g. verapamil), and U-1285/ADR, a small cell lung cancer (SCLC) cell line selected for doxorubicin resistance which lacks pgp, is insensitive to pgp-blockers and shows cross resistance to cis-platinum. At 1 micrograms/ml CsA was the most active agent in reversing Vcr resistance in L100 cells followed by B3-243 and WO-039, with no effect of B3-665. Parental LO cells were only marginally sensitized to Vcr by these agents. No reversing effect of any cyclosporin was observed in the U-1285/ADR or its parental cell line. Compared to LO cells, L100 cells showed a marked hypersensitivity to CsA > B3-243 > WO-039 with B3-665 being inactive. No collateral sensitivity was observed for cyclosporins in U-1285/ADR cells. Although of different magnitude, the pattern of cytotoxic activity for the different cyclosporins alone closely parallelled that of L100 cells for U-1285, U1285/ADR and LO cells. The results indicate that not only the collateral sensitivity in classical MDR but also the cytotoxic actions of cyclosporins per se on tumor cells alone are independent of immunosuppressive activity. The results also suggest a structure-activity relationship for cyclosporin-induced cytotoxicity similar to, but independent of, MDR reversing activity.
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PMID:Cytotoxic action of cyclosporins on human tumor cell lines is not dependent on immunosuppressive activity. 144 25

Cyclosporin (CsA) is a potent modulator of multidrug resistance (MDR) and has been combined with etoposide (VP-16) to purge MDR leukemic cells from human bone marrow (BM) in vitro. We studied the feasibility of this approach in an in vivo model for autologous BM transplantation using the murine leukemia cell line P388 and its MDR variant P388/ADR. Colony-forming assays with 2-h drug exposure revealed a tumor selectivity of VP-16 for P388 cells compared to normal murine marrow granulocyte-macrophage colony-forming units (CFU-GM), whereas P388/ADR cells were resistant to VP-16. Simultaneous incubation with CsA restored sensitivity in these cells. Almost 4 logs of cell kill were achieved by treating P388/ADR cells with 60 microM VP-16 plus 2.5 microM CsA (combination A) or 40 microM VP-16 plus 10 microM CsA (combination B), whereas there was a 2.5-log reduction of CFU-GM at these doses. Even though the myelotoxicity of VP-16 was increased by the addition of CsA, this effect was nonspecific as shown by a similar chemosensitization in sensitive P388 as well as in P388/VP 2.5 cells, an atypical MDR variant lacking P-glycoprotein. In vivo experiments addressed the ability of BM treated with VP-16 and CsA to rescue lethally irradiated mice and to purge leukemic cells. In total, 1/14 lethally irradiated mice died due to sepsis within 10 days after receiving 15 x 10(6) BM cells treated ex vivo with combination A in contrast to 1/4 for combination B. All 16 surviving animals demonstrated long-term engraftment. When simulated remission marrow contaminated with 0.1% P388/ADR was purged with VP-16 (60 microM) or CsA (2.5 microM) alone, all mice died from leukemia before day 16 after transplantation (median 14.3 and 12.2 days). In contrast, nine of ten animals receiving similar marrow purged with combination A survived > 60 days without any evidence of disease (p < 0.01). We conclude that combining VP-16 and CsA was effective in purging MDR leukemia cells from transplanted BM in this murine model.
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PMID:Use of etoposide in combination with cyclosporin for purging multidrug-resistant leukemic cells from bone marrow in a mouse model. 146 39

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


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