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)

The multidrug resistant cell lines HL60/AR and GLC4/ADR show high overexpression of the gene encoding the multidrug resistance associated protein MRP compared to their drug sensitive parental counterparts. This and the virtual absence of mdr1/P-glycoprotein gene expression was proven by a complementary DNA polymerase chain reaction (cDNA-PCR) approach. Applying a 72-hour tetrazolium based colorimetric MTT-assay we demonstrate on both MDR sublines a dose-dependent modulation of drug resistances by the leukotriene LTD4 receptor antagonist MK571. A complete reversal of vincristine resistances was achieved at final MK571 concentrations of 30 microM (HL60/AR) or 50 microM (GLC4/ADR) which by itself did not disturb cellular proliferation. The drug resistance of a mdr1/P-gp overexpressing multidrug-resistant HL60 subline, in contrast, was not significantly affected by MK571. Similar effects were seen using the glutathione (GSH) synthesis inhibitor buthionine sulfoximine (BSO). Our results point to a relationship between MRP and a conjugate transporter and identify MK571 as a new tool structure for developing modulators specific for a MRP associated multidrug resistance.
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PMID:The leukotriene LTD4 receptor antagonist MK571 specifically modulates MRP associated multidrug resistance. 788 49

Drug resistant variant cell lines were selected in vitro for resistance to adriamycin or vincristine, P388/ADR and P388/VCR-600, respectively, from P388 murine leukemia cells. These cells were demonstrated by immunoblot studies with P-glycoprotein specific monoclonal antibody (C219) to overexpress not only P-glycoprotein but also approximately 65 kDa protein, and the expression levels were found to correlate with the degree of resistance. Furthermore, in Northern blot analysis with an MDR1 cDNA as a probe, an overexpressed transcript with the length of about 2.4 kilobases which might encode this previously uncharacterized protein was also detected in the multidrug resistant cell line. Thus, it is suggested that this protein might be associated with multidrug resistant phenotype and be related to P-glycoprotein.
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PMID:Identification of a P-glycoprotein-related protein (mini-P-glycoprotein) which is overexpressed in multidrug resistant cells. 790 66

P-glycoprotein is a plasma-membrane glycoprotein involved in multidrug resistance. P-glycoprotein overexpression has been demonstrated to occur in tumor cells after cytotoxic drug exposure, but also in some cancers including hepatocellular carcinomas before any chemotherapeutic treatment. In order to better analyze this constitutive type of tumoral drug resistance, we have investigated P-glycoprotein expression and function in rat liver tumors induced experimentally by administration of diethylnitrosamine and in two cell clones derived from one of these tumors designated as RHC1 and RHC2. High levels of P-glycoprotein mRNAs were found in both liver tumor samples and the two hepatoma cell clones as assessed by Northern blotting; both RHC1 and RHC2 cells displayed altered liver functions commonly observed in rat hepatoma cells, particularly the decreased expression of albumin and overexpression of the fetal glutathione S-transferase 7-7. The use of specific multidrug resistance (mdr) probes revealed a major induction of the mdr1 gene in liver tumor samples while RHC1 and RHC2 cells expressed both mdr1 and mdr3 genes without displaying a major alteration in the number of mdr gene copies as assessed by Southern blotting. High amounts of P-glycoprotein were also demonstrated in RHC1 and RHC2 cells by Western blotting. These cells were strongly resistant to doxorubicin and vinblastine, two anticancer drugs transported by P-glycoprotein. Doxorubicin intracellular retention was low in RHC1 and RHC2 cells, but was strongly enhanced in the presence of verapamil, a known modulator agent of P-glycoprotein; low retention appeared to occur via a drug efflux mechanism, indicating that P-glycoprotein was fully active. These results show that rat hepatoma cells can display elevated levels of functional P-glycoprotein without any prior cytotoxic drug selection and suggest that these cells represent a useful model for analyzing P-glycoprotein regulation in intrinsically clinical drug-resistant cancers.
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PMID:Constitutive expression of functional P-glycoprotein in rat hepatoma cells. 790 26

Acquired resistance to chemotherapeutic drugs by tumor cells is an important obstacle to effective therapy of human malignancy. These resistance cell lines originated from human or rodent have been characterized by increased expression of MDR (Multidrug-resistance) gene and P-glycoprotein which plays as efflux pump of drugs from cells. These multidrug-resistance sublines also have been reported increased activities of protein kinases and glutathione S-transferase-pi. Although there have been extensive biophysical and biochemical characterization of the differences between parental lines and MDR tumor cell sublines, morphologic observations have been limited. In this study, filamentous cytoskeletons which involve many biological phenomena such as maintenance of cell morphology, mitosis, cellular movement, transport, and adhesion, were observed by confocal laser microscopy. To compare the expression of each cytoskeletons, fluorescent intensities of cells stained for each cytoskeletons were measured by confocal laser microscopic system. Utilizing this methodology, higher microtubular expression was observed in HL-60/ADR and K562/ADR than in their parental lines, but no significant differences of actin and vimentin were observed. Phosphorylation by protein kinases has been established as a key factor in the regulation of cytoskeletal function. But little is known about the role of protein phosphorylation in cytoskeletal function. Since increased activities of PKC and PTK were detected in HL-60/ADR, the effect of PKC inhibitor, staurosporine (STR), or PTK inhibitor, genistein (GNS), on cell growth was detected. STR and GNS reduced the resistance to Adriamycin in HL-60/ADR. Furthermore, STR and GNS disrupted the filamentous structure of microtubules in HL-60/ADR, and suppressed the expression of microtubules to 37%, and 49%, respectively. In contrast, PKC activator, phorbol ester (TPA), caused stronger microtubular assembling in HL-60/ADR, and increased the expression of microtubules to 134%. Resulting from this study, it is likely that acquired MDR of HL-60 and K562 was associated with increased expression of microtubules, and microtubular assembling or disassembling was considered to be regulated in part by PKC and PTK.
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PMID:[Features of filamentous cytoskeletons in acquired multidrug-resistance of HL-60 human leukemia cell line]. 790 88

An MCF-7 human breast cancer line variant (MCF-7/MPA), resistant to medroxyprogesterone-acetate (MPA), was obtained by continuous exposure in vitro to the drug. MCF-7/MPA cells were grown in the presence of 12.5 x 10(-6) M MPA and were selected by increasing the concentration of the drug in the growth medium in a stepwise manner from 0.025 x 10(-6) M up to 12.5 x 10(-6) M. Comparative studies of cellular morphology, cytosolic steroid receptor content and P-Glycoprotein expression were performed on both MCF-7 parental line and MCF-7/MPA variant. MCF-7/MPA cells, when compared to the parental line, exhibit a different morphology in terms of membrane alterations, reduced content of cytosolic progesterone receptor, increased expression of P-glycoprotein along with reduction of Doxorubicin (Dx) activity on the growth of MCF-7/MPA resistant cells.
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PMID:Morphological and biochemical features of a medroxyprogesterone acetate (MPA)-resistant MCF-7 breast cancer cell line. 790 20

We describe the selection of 3 new multidrug-resistant cell lines derived from tumor cells of different metastatic phenotypes within the Dunning R3327 model of rat prostatic carcinoma. Cell lines of weak (AT2) and strong (AT3 and MAT-LyLu) metastatic behavior were cultured in vitro and challenged with doxorubicin at progressively increasing concentrations. Chemosensitivity was determined colorimetrically by release of precipitated formazan pigment (MTT assay). Expression of the multidrug-resistance glycoprotein (P-170) was monitored immunocytochemically and by Western blotting using monoclonal antibody C219. The behavior of the parental and resultant drug-resistant cells was assessed by their growth in syngeneic rats. Doxorubicin challenge of the initially drug-sensitive parental prostatic carcinoma cell lines resulted in the rapid development of multidrug resistance together with simultaneous expression of P-glycoprotein. While lung and lymph-node metastases developed in host animals inoculated with parental AT3 and MAT-LyLu cells, no metastases developed in the multidrug-resistant progeny of these cell lines. This study has shown that Dunning rat prostate-carcinoma cell lines, previously sensitive to different cytotoxic agents, rapidly become multidrug-resistant and express P-glycoprotein following exposure to doxorubicin. Furthermore, development of multidrug resistance is associated with a less aggressive tumor phenotype and loss of metastatic potential. Nevertheless, it is unlikely that the non-metastatic phenotype of Dunning rat prostatic carcinoma cells is solely associated with expression of P-glycoprotein. These new multidrug-resistant cell lines exhibiting an altered behavioral phenotype will provide a valuable model with which to analyze the relationship between expression of P-glycoprotein and the metastatic phenotype of prostatic carcinoma cells.
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PMID:Establishment and in vivo characterization of multidrug-resistant dunning R3327 rat prostate-carcinoma cell-lines. 791 Aug 10

To study the effect of bile acids on P-glycoprotein-mediated drug transport, we performed experiments using multidrug resistant cells and rat canalicular membrane vesicles. Cellular accumulation and efflux of rhodamine 123 were measured in drug-resistant cells by means of computerized quantitative image analysis and fluorescence microscopy. ATP-dependent [3H]daunomycin transport was studied by means of rapid filtration in canalicular membrane vesicles prepared from normal rats. Doxorubicin-sensitive (PSI-2) and -resistant (PN1A) 3T3 cells and human-derived hepatocellular carcinoma doxorubicin-sensitive and -resistant cells were used. Taurochenodeoxycholate and glycochenodeoxycholate, taurolithocholate and ursodeoxycholate (50 to 200 mumol/L) inhibited rhodamine 123 and [3H]daunomycin transport in multidrug-resistant cells and canalicular membrane vesicles, respectively, whereas taurocholate, taurodeoxycholate and tauroursodeoxycholate did not. Primary and secondary unconjugated bile acids had no effect. These results reveal that taurolithocholate, taurochenodeoxycholate and glycochenodeoxycholate and ursodeoxycholate inhibit P-glycoprotein-mediated drug transport function in multidrug resistant cell lines and in canalicular membrane vesicles. These results suggest possible interaction between P-glycoprotein function and bile acids in cholestasis and after treatment of patients with ursodeoxycholic or chenodeoxycholic acid.
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PMID:Bile acid inhibition of P-glycoprotein-mediated transport in multidrug-resistant cells and rat liver canalicular membrane vesicles. 791 87

Ether phospholipids are new anti-neoplastic drugs that have been found active against a variety of tumor cell lines, including drug-resistant sublines. We have characterized the antiproliferative activity of three ether phospholipids, i.e. ET-18-OCH3 (Edelfosine), BM 41.440 (limofosine) and a new aza-derivative (BN 52205), on three leukemic cell lines, i.e. K562 (chronic myeloid leukemia, blast crisis), HL60 (promyelocytic acute leukemia) and CEM (T cell leukemia), and their respective drug-resistant sublines, i.e. K562-ADR (adryamicin resistant), HL60-DNR [daunorubicin (DNR) resistant] and CEM-VLB (vinblastin resistant). These resistant sublines have been found to express the multidrug-resistant phenotype, revealed by the presence of the P-glycoprotein (PgP) using different monoclonal antibodies. Increased cellular accumulation of the fluorescent anthracycline has been found in both sensitive and resistant cell lines after different ether phospholipid treatment times. In resistant cells, the ether phospholipid effect on DNR accumulation has also been found after blocking the PgP function by verapamil and cyclosporin A. These results confirm that the ether phospholipid action is closely linked with the membrane biochemical composition and that these new anti-tumor drugs are able to change the dynamic structural organization of the tumor cell membrane.
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PMID:Flow cytometric monitoring of anthracycline accumulation after anti-neoplastic ether phospholipid treatment. 791 58

Multidrug-resistant, human non-small-cell lung carcinoma SW-1573/2R120 (2R120) cells, not containing the drug efflux pump P-glycoprotein (Pgp), have reduced initial daunorubicin (DN) accumulation rates and decreased cellular steady-state drug concentrations. Previously we found indications of the presence of a plasma membrane "vacuum cleaner", pumping DN directly from the membrane, and reported evidence of active DN pumping using digitonin. Further evidence of active DN pumping is now provided via a different methodology and the active drug pump flux is estimated. Cells were exposed to a flowing medium containing the cytotoxic agent DN. After reaching a steady state, in which net DN uptake equals net DN efflux, high concentration pulses of vincristine (VCR) were injected into the flowing medium. A rapid increase in cellular DN content was observed, while only a minimal effect was seen in SW-1573 wild-type cells. After passage of the VCR pulse, the extra accumulated DN was effluxed against a concentration gradient. Upon increasing the VCR concentration, a maximum pump inhibition was reached which was similar to the effect of cellular energy depletion. Similar effects were observed for Pgp-containing SW-1573/2R160 (2R160) cells as well as non-Pgp MDR human small-cell lung carcinoma GLC4/ADR cells. With increasing extracellular DN concentrations, saturation of the VCR-induced DN influx was observed (DN medium concentration 2.5 microM at 1/2 Vmax). At an extracellular DN concentration of 5 microM, higher concentrations of VCR were needed to reach the maximum effect in 2R120 cells than at 0.5 microM DN. This is an indication of competitive interaction between DN and VCR for the putative DN efflux system. In summary, we found indications of inhibition of active DN efflux by VCR and DN efflux against a concentration gradient in non-Pgp MDR 2R120 and GLC4/ADR cells. These features are consistent with the presence of a multidrug transporter, different from Pgp, in the plasma membrane of these cells.
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PMID:Daunorubicin efflux against a concentration gradient in non-P-glycoprotein multidrug-resistant lung-cancer cells. 792 29

In several multidrug resistant tumor cell lines without overexpression of P-glycoprotein (non-Pgp MDR), a decreased accumulation of drugs has been shown to contribute to resistance. We have recently reported that daunorubicin (DNR) accumulation was decreased in the multidrug resistance-associated protein overexpressing GLC4/ADR non-Pgp MDR small cell lung cancer cell line due to an enhanced energy-dependent efflux which could be inhibited by the isoflavonoid genistein. The purpose of this work was 2-fold: (i) to investigate the mechanism by which genistein inhibits the DNR efflux in the GLC4/ADR cells; and (ii) to characterize the dependence of DNR transport on ATP concentration in intact GLC4/ADR cells. The active transport of DNR in GLC4/ADR cells appeared to be a saturable process with an apparent Km of DNR of 1.4 +/- 0.4 microM. Genistein increased the apparent Km value of DNR, suggesting that this agent is a competitive inhibitor of DNR transport. These data provide additional evidence that energy-dependent DNR transport in GLC4/ADR cells is a protein-mediated process. In addition, genistein decreased cellular ATP concentration in a dose-dependent manner in sensitive as well as in resistant cells. Marked inhibition of DNR transport activity in intact GLC4/ADR cells was found when cellular ATP concentration was decreased below 2 mM by sodium azide or 2-deoxy-D-glucose. Thus, since DNR transport in intact GLC4/ADR is already inhibited at modest cellular ATP depletion, a limitation in ATP supply might open ways to make MDR cells more susceptible to drug toxicity.
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PMID:Competitive inhibition by genistein and ATP dependence of daunorubicin transport in intact MRP overexpressing human small cell lung cancer cells. 794 6

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