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)

We have examined P-glycoprotein (P-gp) expression and function in cultured rat hepatocytes in response to dexamethasone (DEX), which is known to modulate various liver functions. Northern blot analyses revealed high levels of P-gp mRNAs in cultured untreated liver cells in comparison to those found in freshly isolated hepatocytes, while DEX-treated hepatocytes also displayed elevated, although weaker, P-gp levels. Similarly, Western blotting analysis indicated high levels of P-gp in liver cells maintained in the absence of DEX. The use of mdr gene-specific probes allowed us to show that DEX-modulated P-gp induction in cultured hepatocytes involved mostly, if not specifically, mdr1 gene regulation. Doxorubicin P-gp-mediated efflux analyses revealed lower intracellular doxorubicin accumulation in DEX-untreated liver cells than in DEX-treated cells, thus indicating that over-expressed P-gp was functional. These data clearly show that DEX treatment strongly modulates P-gp expression in primary rat hepatocyte cultures through a specific effect on the mdr1 gene.
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PMID:Regulation by dexamethasone of P-glycoprotein expression in cultured rat hepatocytes. 810 94

HL60 cells isolated for resistance to Adriamycin (HL60/ADR) overexpress a 190-kDa ATP binding protein which has a minor sequence homology with P-glycoprotein. It has also been observed that HL60/ADR overexpress the MRP gene which was first identified as a component of a non-P-glycoprotein mediated multidrug resistance of H69/ADR cells [Cole et al., Science (Washington DC), 258: 1650, 1992]. A complementary DNA of MRP has been cloned and based on the deduced sequence encodes a member of the superfamily of proteins which bind ATP and function in various transport processes [Cole et al., Science (Washington DC), 258: 1650, 1992]. In view of this it was of interest to identify the protein encoded by MRP and determine if it may be related to p190. In the present study we have prepared antisera against three synthetic peptides which correspond to the deduced sequence of the MRP protein. Proteins reactive with the antisera have been examined in HL60/ADR cells using Western blot analysis. All antisera react with a 190 kDa protein contained in membranes of resistant but not sensitive cells. One antiserum used for further studies is not reactive with P-glycoprotein contained in membranes of HL60 cells isolated for resistance to vincristine. Analysis of subcellular fractions demonstrates that p190 is present primarily in the endoplasmic reticulum with lower levels also present in plasma membranes. Treatment of HL60/ADR cells with tunicamycin results in the appearance of a 165-kDa resistance associated protein which reacts with the antipeptide serum. The results of this study therefore demonstrate that the MRP gene encodes a 190-kDa membrane bound glycoprotein.
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PMID:The MRP gene associated with a non-P-glycoprotein multidrug resistance encodes a 190-kDa membrane bound glycoprotein. 810 65

We have compared the pharmacological and molecular characteristics of 2 cell lines derived from the C6 rat glioblastoma, and selected for resistance either to doxorubicin (C6 0.5 line) or to vincristine (C6 IV line). Each line displays a preferential 400-fold resistance towards the drug used for selection, the C6 IV line being especially weakly resistant to doxorubicin (13-fold). Verapamil completely restored doxorubicin sensitivity in the C6 IV line as well as vincristine resistance in the C6 0.5 line, but could not completely reverse doxorubicin resistance in the C6 0.5 line or vincristine resistance in the C6 IV line. This suggests that specific mechanisms of resistance against each drug were added to a common P-glycoprotein-mediated multidrug-resistance mechanism. Doxorubicin efflux was total within 2 hr in the C6 IV line, whereas it remained 8 to 10% of drug in the C6 0.5 line 4 hr after drug removal, despite a more rapid efflux of the drug in the first 30 min. This 2-compartment behavior could be related to a special sub-cellular distribution of doxorubicin in C6 0.5 cells. Northern and Western blot analysis of the mdrI gene and of the P-glycoprotein expressed by the 2 resistant cell lines made it possible to quantify their degree of over-expression; when compared with the C6 wild strain, the C6 0.5 line over-expressed both the mdrI gene and the P-glycoprotein to a slightly higher level than the C6 IV line. Northern and Western blot analysis also suggested that C6 0.5 cell preferentially over-expressed the mdrIa gene, whereas the C6 IV cells preferentially over-expressed the mdrIb gene. This differential over-expression was confirmed after polymerase-chain-reaction amplification of the cDNA sequences transcribed from total RNA extracted from the 2 lines. It can be concluded therefore that the mdrIa gene product is more efficient than the mdrIb gene product in extruding anti-cancer drugs from the cells; and that the mdrIb gene product might preferentially extrude vincristine rather than doxorubicin.
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PMID:Differential over-expression of mdr1 genes in multidrug-resistant rat glioblastoma cell lines selected with doxorubicin or vincristine. 810 27

Significant activity has been identified using S9788, a triazineaminopiperidine derivative, as a new modulator of multi-drug resistance against a series of drug-resistant human tumour-cell lines in vitro. Maximal non-cytotoxic concentrations (i.e., those resulting in < or = 10% cytotoxicity) of S9788 or verapamil were tested in combination with vinblastine, Adriamycin or vincristine and cytotoxicity was evaluated using a clonogenic assay, or the metabolic dye reduction MTT assay, or by monitoring growth inhibition. Under these conditions, the extent of resistance modulation by verapamil and by S9788 was comparable in the various tumour cell lines tested, although a definite concentration-dependent modulation was noted with both compounds. The highest dose-modification factors were noted in the highly vinblastine-resistant classic multi-drug-resistant subline CEM/VLB100, although resistance reversal was only partial. Resistance modulation by both verapamil and S9788 was noted in 4 drug-selected resistant sublines and 4 "intrinsically" resistant human tumour cell lines, which all exhibited significant P-glycoprotein expression. In contrast, in 2 drug-resistant human tumour sublines (GLC4/ADR and CEM/VM-1) characterized by altered topoisomerase-II activity and proving to be P-glycoprotein-negative, no resistance modulation relative to parental cells was observed. These data are consistent with the proposal that resistance modulation is mediated by interaction between S9788 and P-glycoprotein and support its clinical evaluation in patients with P-glycoprotein-positive tumours.
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PMID:Evaluation of S9788 as a potential modulator of drug resistance against human tumour sublines expressing differing resistance mechanisms in vitro. 810 61

Doxorubicin accumulation defects in multidrug resistant tumour cells are generally small in comparison to the resistance factors. Therefore additional mechanisms must be operative. In this paper we show by a quantitative approach that doxorubicin resistance in several P-glycoprotein-positive non-small cell lung cancer and breast cancer multidrug resistant cell lines can be explained by a summation of accumulation defect and alterations in the efficacy of the drug once present in the cell. This alteration of efficacy was partly due to changes in intracellular drug localisation, characterised by decreased nuclear/cytoplasmic doxorubicin fluorescence ratios (N/C-ratios). N/C-ratios were 2.8-3.6 in sensitive cells, 0.1-0.4 in cells with high (> 70-fold) levels of doxorubicin resistance and 1.2 and 1.9 in cells with low or intermediate (7.5 and 24-fold, respectively) levels of doxorubicin resistance. The change of drug efficacy was reflected by an increase in the total amount of doxorubicin present in the cell at equitoxic (IC50) concentrations. N/C ratios in highly resistant P-glycoprotein-containing cells could be increased with the resistance modifier verapamil to values of 1.3-2.7, a process that was paralleled by a decrease of the cellular doxorubicin amounts present at IC50. At the low to moderate residual levels of resistance, obtained with different concentrations of verapamil, a linear relationship between IC50 and cellular doxorubicin amounts determined at IC50 was found. This shows that at this stage of residual resistance, extra reversal by verapamil should be explained by further increase of drug efficacy rather than by increase of cellular drug accumulation. A similar relationship was found for P-glycoprotein-negative MDR cells with low levels of resistance. Since in these cells N/C ratios could not be altered, verapamil-induced decrease of IC50 must be due to increased drug efficacy by action on as yet unidentified targets. Although the IC50 of sensitive human cells cannot be reached with resistance modifiers, when using these relationships it can be shown by extrapolation that cellular and nuclear doxorubicin amounts at IC50 at complete reversal of resistance were the same as in sensitive cells. It is concluded that doxorubicin resistance factors for multidrug resistant cells can for a large part, and in the case of P-glycoprotein-containing cells probably fully, be accounted for by decreased amounts of drug at nuclear targets, which in turn is characterised by two processes only: decreased cellular accumulation and a shift in the ratio nuclear drug/cytoplasmic drug.
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PMID:Changes in subcellular doxorubicin distribution and cellular accumulation alone can largely account for doxorubicin resistance in SW-1573 lung cancer and MCF-7 breast cancer multidrug resistant tumour cells. 810 65

In tumour cells the pharmacological basis for multidrug resistance (MDR) often appears to be a reduced cellular cytostatic drug accumulation caused by the drug efflux protein, P-glycoprotein (Pgp MDR), or by other drug transporters (non-Pgp MDR). Here we report the reversal of the decreased daunorubicin (DNR) accumulation in five non-Pgp MDR cell lines (GLC4/ADR, SW-1573/2R120, HT1080/DR4, MCF7/Mitox and HL60/ADR) by genistein. Genistein inhibited the enhanced DNR efflux in the GLC4/ADR cells. In these cells the decreased VP-16 accumulation was also reversed by genistein. Three other (iso)flavonoids biochanin A, apigenin and quercetin also increased the DNR accumulation in the GLC4/ADR cells. In contrast to the effects on non-Pgp MDR cells, 200 microM genistein did not increase the reduced DNR accumulation in three Pgp MDR cell lines (SW-1573/2R160, MCF7/DOX40 and KB8-5) or in the parental cell lines. In conclusion the use of genistein provides a means to probe non-Pgp related drug accumulation defects.
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PMID:Genistein modulates the decreased drug accumulation in non-P-glycoprotein mediated multidrug resistant tumour cells. 810 67

The in vitro cytotoxicity, cellular pharmacology, and DNA lesions induced by the lipophilic anthracycline annamycin (Ann) were studied in KB and KB-V1 (multidrug-resistant) cells. Ann was tested in suspension in saline and 10% dimethylsulfoxide (DMSO: final concentration, 0.05%-0.5%) or entrapped in multilamellar liposomes (median size, 1.57 microns). Doxorubicin (Dox) was about twice as cytotoxic as Ann or liposome-entrapped Ann (L-Ann) against KB cells. Both Ann and L-Ann displayed a partial lack of cross-resistance with Dox (resistance indices: > 60 for Dox, 4.7 for Ann, 4.0 for L-Ann). Accumulation of Ann in KB and KB-V1 cells was consistently about 2-3 and 10-20 times higher, respectively, than that of Dox. Cellular retention of Ann in KB and KB-V1 cells was about 2 and 30 times higher, respectively, than that of Dox as a result of the different efflux patterns of the two drugs: Dox was not effluxed from KB cells but was significantly effluxed from KB-V1 cells (66% at 1 h, whereas Ann efflux was similar in both cell lines (about 50% at 1 h). Dox retention in KB-V1 cells was increased by a factor of 2 in the presence of verapamil or cyclosporine A, but Ann retention was not. In addition, accumulation of Dox in KB-V1 cells was enhanced by the metabolic inhibitor deoxyglucose/azide and the membrane carboxylic ionophore monensin, whereas accumulation of Ann was not affected by either agent. All these findings indicate significant differences in the cellular transmembrane transport systems between Dox and Ann and suggest that Ann efflux is not mediated by P-glycoprotein. Liposome entrapment reduced by a factor of 1.3-2.0 the cellular accumulation of Ann without affecting its cytotoxicity. As compared with Dox, both Ann and L-Ann induced 3 times more DNA double- and single-strand breaks in KB cells. In KB-V1 cells, Dox did not induce DNA damage, whereas the extent of DNA breaks induced by both Ann and L-Ann was similar to that induced by Dox in KB cells. Our results indicate (1) that the lack of cross-resistance between Ann and Dox is associated with a markedly enhanced accumulation and retention of Ann in KB-V1 cells and (2) that the type of liposomes used does not significantly affect the cellular effects of Ann.
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PMID:Cellular pharmacology of the partially non-cross-resistant anthracycline annamycin entrapped in liposomes in KB and KB-V1 cells. 819 62

Reduced accumulation of multiple drugs is a characteristic of cells overexpressing P-glycoprotein. This phenotype is referred to as multidrug-resistance (MDR). A protocol based on reduced accumulation of fluorescent dyes is proposed for discriminating MDR cells in cell populations. The combination of three fluorescent dyes, Hoechst 33342, rhodamine 123 and Nile red, with different intracellular targets, has been designed to characterize cells with different levels of resistance, using image cytometry. The fluorescence intensity of each dye was quantified in living cells. The protocol was applied to human leukemia cell lines, (K562, K562/ADR, CCRF-CEM, CEM/VLB100, CEM/VM-1). The effect of verapamil on dye accumulation is emphasized.
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PMID:Detection of human leukemia cells with multidrug-resistance phenotype using multilabeling with fluorescent dyes. 823 35

The Adriamycin-resistant small cell lung carcinoma cell line, GLC4/ADR, showed large differences in cross-resistance to drugs such as Adriamycin, etoposide (VP-16), teniposide (VM-26), 4'-(9-acridinylamino)-methanesulfon-m-anisidide (m-AMSA), and mitoxantrone, which stimulate the formation of topoisomerase (Topo) II-DNA complexes. GLC4/ADR cells demonstrated a reduced Topo II activity and no detectable levels of the P-glycoprotein compared to the parental GLC4 cells (S. De Jong et al., Cancer Res., 50: 304-309, 1990). In the present study, the resistance to VM-26 (59.5-fold) and to m-AMSA (4-fold) of GLC4/ADR after a 1-h incubation was further analyzed. Using the K(+)-sodium dodecyl sulfate precipitation assay, a reduction in VM-26- and m-AMSA-induced cleavable complex formation was found in GLC4/ADR cells compared to GLC4 cells that was related to the degree of resistance to each drug. Cellular accumulation of the VM-26 analogues VP-16 was 3- to 8-fold less and the accumulation of m-AMSA 1- to 2-fold less in GLC4/ADR cells than in the parental cells. Following the removal of VM-26, the cleavable complexes in GLC4/ADR cells disappeared at least 2-fold faster than in GLC4 cells, while the efflux of VP-16 was also enhanced in the resistant cells. On the contrary, no differences in cleavable complex disappearance or drug efflux between these cell lines were observed with m-AMSA. Efflux of both drugs, however, occurred at a much higher rate than cleavable complex disappearance. Using isolated nuclei, a reduction in cleavable complexes in GLC4/ADR was still observed with VM-26 as well as m-AMSA compared to GLC4. The resistant nuclei and nuclear extracts showed a 3-fold decrease in M(r) 170,000 Topo II by immunoblotting. No differences in cleavable complex formation were found between nuclear extracts of both cell lines, when the Topo II activities were equalized. These findings suggest that the cross-resistance to m-AMSA is due to a decreased amount of Topo II and decreased drug accumulation, while in addition to these mechanisms an increased rate of cleavable complex disappearance is involved in the cross-resistance to VM-26 of the GLC4/ADR cell line.
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PMID:Topoisomerase II as a target of VM-26 and 4'-(9-acridinylamino)methanesulfon-m-aniside in atypical multidrug resistant human small cell lung carcinoma cells. 838 51

We have analyzed five human melanoma cell lines, displaying variable doxorubicin resistance (1- to 6-fold), for drug-induced DNA breaks, topoisomerase II activity and mRNA expression. Enhanced drug efflux was not the reason for doxorubicin resistance of these tumor cells although they overexpressed the transmembrane 170 kDa P-glycoprotein. Doxorubicin-induced DNA lesions (2-fold) and topoisomerase II activity (7-fold) were higher in HM-1 and G361 cells than in the less doxorubicin-sensitive NH and FCCM-9 cells. Topoisomerase II mRNA expression was also 2-fold higher in HM-1 and G361 cells. Doxorubicin-induced DNA breaks and topoisomerase II activity inversely correlated with the degree of doxorubicin sensitivity. Southern blot analysis showed variation in the hybridization pattern of topoisomerase II gene in doxorubicin-resistant cells when compared to sensitive cells. This study portrays the low doxorubicin sensitivity of NH and FCCM-9 cells as "atypical" and emphasizes the importance of DNA damage and topoisomerase II activity in cellular low doxorubicin resistance.
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PMID:Doxorubicin-induced DNA breaks, topoisomerase II activity and gene expression in human melanoma cells. 838 63

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