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 the effects of the nitrosoureas, streptozotocin (STZ) and 1,3-bis(chloroethyl)-1-nitrosourea (BCNU), on a human multiple myeloma cell line, RPMI 8226, and its drug-resistant variants. Cell lines selected for doxorubicin (DOX) resistance alone displayed a STZ and BCNU cytotoxicity profile similar to that of the parent cell line. In contrast, two of the drug-resistant variants selected with DOX plus verapamil, an agent which inhibits P-glycoprotein-mediated multidrug resistance, displayed a collateral sensitivity to STZ and BCNU. Verapamil was included in the selection protocol because it has been shown to inhibit the P-glycoprotein-mediated multidrug resistance phenotype and is now in clinical trials as a chemosensitizing agent. The collateral sensitivity to these nitrosoureas seen in the DOX plus verapamil-selected cell lines is due to the functional loss of a DNA repair molecule, O6-Methylguanine DNA methyltransferase (MGMT). The functional loss of MGMT is secondary to the loss of MGMT gene expression. The loss of MGMT gene expression is not due to loss or gross rearrangement of the MGMT-coding region. If this selection pressure applied in vitro reflects the in vivo situation, then new chemotherapeutic strategies may be devised to exploit this phenomenon. These cell lines will serve as useful models for delineating mechanisms which govern MGMT expression.
Cancer Res 1992 Sep 15
PMID:Collateral sensitivity to nitrosoureas in multidrug-resistant cells selected with verapamil. 138 86

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 1 microM completely reversed the resistance to vincristine in vincristine-resistant P388 mouse leukemia cells (P388/VCR), in vitro. PAK-200 at 2 microM inhibited the efflux of [3H]vincristine from P388/VCR and increased the accumulation of [3H]vincristine in P388/VCR to a level similar to that in P388 cells. P-Glycoprotein in membrane vesicles from P388/VCR cells was photolabeled with [3H]azidopine. The labeling was completely inhibited by 10 microM PAK-200. The calcium antagonistic activity of PAK-200 was about 1000 times lower than that of another dihydropyridine analogue, nicardipine. Experiments with P388 and P388/VCR-bearing mice showed that PAK-200 enhanced the effect of vincristine on both leukemia cells in vivo. These results suggest that PAK-200 interacts with P-glycoprotein and reverses drug resistance in P388 mouse leukemia cells in vitro, and that PAK-200 has an ability to potentiate the effect of vincristine on P388 mouse leukemia cells in vivo.
Jpn J Cancer Res 1992 Sep
PMID:Potentiation of the vincristine effect on P388 mouse leukemia cells by a newly synthesized dihydropyridine analogue, PAK-200. 142 98

Mechanisms of multidrug resistance were studied in murine leukemia (L 1210) and sarcoma (Sa 180) tumors after pretreatment with anthracyclines in vivo. Despite identical pretreatment protocols, a considerable difference in the level of resistance between L 1210 and Sa 180 tumors was noted (for doxorubicin: 45-fold versus 340-fold; for daunorubicin: 51-fold versus 275-fold). However, no difference in mdr 1 gene-amplification and the overexpression of mdr 1-RNA or P-glycoprotein was demonstrated. None of these parameters did increase by further treatment with a higher concentration of anthracyclines. Resistant sublines of Sa 180 revealed an overexpression of glutathione S-transferase-pi (GST-pi) in comparison to the parental line, whereas in sensitive and resistant sublines of L 1210 tumors the expression of GST-pi was similar. In order to study whether trifluoperazine can reverse the P-glycoprotein mediated component of multidrug resistance, trifluoperazine and doxorubicin were tested in vitro in L 1210 and Sa 180 cells. In contrast to the complete reversal of resistance in L 1210 tumors, resistance in Sa 180 was only partly circumvented. However, by buthionine sulfoximine treatment, the toxicity of multidrug resistant Sa 180 tumors could be increased. It was possible to reverse the resistance of Sa 180 tumors completely by trifluoperazine plus buthionine sulfoximine. Thus, multidrug-resistant Sa 180 tumors express different defense mechanisms whereas L 1210 tumors express only one defense mechanism (P-glycoprotein).
Arzneimittelforschung 1992 Sep
PMID:Resistance mechanisms in murine tumors with acquired multidrug resistance. 144 88

Recent studies have revealed that the expression of P-glycoprotein/multidrug resistance genes is crucial for the development of resistance to a number of lipophilic cancer chemotherapeutic agents. To better understand the regulatory mechanisms of pgp gene expression, we isolated and characterized a DNA fragment containing the 5' portion of a Chinese hamster pgp gene. DNA sequence analysis revealed that this gene is pgp1, the hamster homologue of murine mdr3/mdr1a. This gene is expressed at a higher level in intestines than in kidney and liver, consistent with the expression pattern for the murine mdr3/mdr1a gene. The major transcription start site, determined by the S1 nuclease protection, RNase protection, and primer extension methods, lies 67 nucleotides upstream of the murine and human downstream transcription start site. A chimera containing 101 base pairs upstream from this start site and the chloramphenicol acetyltransferase (CAT) gene was able to direct CAT expression in transient transfection experiments. The AP-1 site, located at -48 base pairs, was crucial for the full pgp1 promoter activity, as demonstrated by site-directed mutagenesis of this site, enhancement of the CAT expression by cotransfection with the expression vectors encoding c-Jun/c-Fos genes, but sequestration with those containing retinoic acid receptor genes. The sequestration effect could be partially abolished when c-Jun/c-Fos genes were also included in cotransfection. An AP-1 or AP-1-like site is also present at the same location in both human and mouse mdr homologues. The involvement of AP-1 in the expression of mammalian pgp1-class genes is discussed.
Cell Growth Differ 1991 Sep
PMID:Analysis of the Chinese hamster P-glycoprotein/multidrug resistance gene pgp1 reveals that the AP-1 site is essential for full promoter activity. 166 Nov 34

It is believed that P-glycoprotein (P-gp) is an energy-dependent drug efflux pump responsible for decreased drug accumulation in multidrug resistant (MDR) cells. In this study, we investigated whether azidopine, a photoactive dihydropyridine calcium channel blocker, is transported by P-gp in MDR Chinese hamster lung cells, DC-3F/VCRd-5L, and whether its binding site(s) on P-gp are distinct from those of Vinca alkaloids and cyclosporins. The efflux of azidopine from MDR cells was energy-dependent and inhibited by the cytotoxic agent vinblastine (VBL). Cyclosporin A (CsA), a modulator of MDR, also increased azidopine accumulation in MDR cells by decreasing the energy-dependent efflux of azidopine. P-gp in these cells was the only protein specifically bound to [3H]azidopine in photoaffinity experiments. The specific photoaffinity labeling of P-gp by [3H]azidopine was inhibited by CsA, SDZ 33-243, nonradioactive azidopine, and VBL with median concentrations (IC50) of 0.5, 0.62, 1.7, and 25 microM, respectively. The equilibrium binding of azidopine to plasma membranes of MDR variant DC-3F/VCRd-5L cells showed a single class of specific binding sites having a dissociation constant of 1.20 microM and a maximum binding capacity of 4.47 nmol/mg of protein. Kinetic analysis indicated that the inhibitory effect of VBL and CsA on azidopine binding to plasma membranes of MDR cells was noncompetitive, indicating that azidopine binds to P-gp at a binding site(s) different from the binding site(s) of these drugs.
J Biol Chem 1991 Sep 05
PMID:Azidopine noncompetitively interacts with vinblastine and cyclosporin A binding to P-glycoprotein in multidrug resistant cells. 167 34

In vivo exposure of a human epidermoid lung carcinoma xenograft to seven irradiation treatments of 10 Gy in consecutive passages resulted in expression of resistance to vincristine. This about threefold drug resistance was detectable with a single dose of 1 mg/kg vincristine. Characterization of the radiation-pretreated subline showed that overexpression of P-glycoprotein, as determined by immunofluorescence and Mabs C219 and 265/F4, occurred in this tumor. After six X-ray fractions, only single positive cells were observed, whereas seven fractions produced an intense immunofluorescent reaction with both antibodies. Southern blot analyses indicated that no gene amplification had occurred. This result shows that irradiation can influence expression of P-glycoprotein and in this way influences drug resistance.
Radiat Res 1991 Sep
PMID:Overexpression of P-glycoprotein in human lung carcinoma xenografts after fractionated irradiation in vivo. 167 64

Four well defined multidrug-resistant cell lines and their drug-sensitive counterparts were examined for intracellular distribution of daunorubicin (DNR) by laser-assisted confocal fluorescence microscopy: P-glycoprotein-negative HL-60/AR cells, and P-glycoprotein-positive P388/ADR, KBV-1, and MCF-7/ADR cells. Both drug sensitive cell lines (HL-60/S, P388/S, KB3-1, and MCF-7/S) and drug-resistant cell lines (HL-60/AR, P388/ADR, KBV-1, and MCF-7/ADR) exposed to DNR showed a similar rapid distribution of drug from the plasma membrane to the perinuclear region within the first 2 min. From 2-10 min, the drug sensitive HL-60/S, P388/S, and MCF-7/S cells redistributed drug to the nucleus and to the cytoplasm in a diffuse pattern. In contrast, drug-resistant HL-60/AR, P388/ADR, and MCF-7/ADR redistributed DNR from the perinuclear region into vesicles distinct from nuclear structures, thereby assuming a "punctate" pattern. This latter redistribution could be inhibited by glucose deprivation (indicating energy dependence), or by lowering the temperature of the medium below 18 degrees C. The differences in distribution between sensitive and resistant cells did not appear to be a function of intracellular DNR content, nor the result of drug cytotoxicity. Drug-sensitive KB3-1 and -resistant KBV-1 cells did not fully follow this pattern in that they demonstrated an intracellular DNR distribution intermediate between HL-60/S and HL-60/AR cells with both "punctate" and nuclear/cytoplasmic uptake sometimes in the same cell. These data indicate that the intracellular distribution of DNR is an important determinant of drug resistance regardless of the overexpression of P-glycoprotein. The intracellular movement of drug requires the presence of glucose and a temperature above 18 degrees C, implicating energy-dependent processes and vesicle fusion in the distribution process. This intracellular transport of DNR away from the nucleus in multidrug-resistant cells may protect putative cell targets such as DNA against drug toxicity.
Cancer Res 1991 Sep 15
PMID:Subcellular distribution of daunorubicin in P-glycoprotein-positive and -negative drug-resistant cell lines using laser-assisted confocal microscopy. 168 24

P-glycoprotein expression was demonstrated in two human intestinal adenocarcinoma cell-lines (HCT-8, ileocaecal and T84, colonic) by immunoprecipitation of a 170-180 kDa protein with monoclonal antibody JSB-1. Both HCT-8 and T84 formed functional epithelial cell layers of high transepithelial electrical resistance (greater than 700 omega.cm2) when grown on permeable matrices. These epithelial layers demonstrated vectorial secretion (net vinblastine fluxes in the basal-to-apical direction of 0.135 and 0.452 pmol h-1 cm-2 in HCT-8 and T84 cell layers, respectively, from bathing solutions containing 10 nM vinblastine). These vectorial vinblastine secretions were sensitive to inhibition by verapamil. Passive transepithelial vinblastine permeation was limited by the presence of intercellular (tight) junctions, as demonstrated by the high transepithelial electrical resistance, and verapamil increased this passive vinblastine permeation concomitant with a reduction in the electrical resistance. Cellular vinblastine loading was significantly greater from the basal side, and this was also susceptible to inhibition by basal verapamil. The demonstration of vectorial transport of vinblastine in human intestinal colonic adenocarcinoma cell layers is direct evidence in favour of the hypothesis that the function of mdr1 in epithelial from the gastrointestinal tract is to promote detoxification by a process of epithelial secretion. This study also highlights that cellular vinblastine accumulation depends not only upon P-glycoprotein function, but also upon differential apparent membrane permeabilities and the presence of intercellular (tight) junctions that may restrict drug permeation and cellular accumulation to apical or basal membrane domains.
Br J Cancer 1991 Sep
PMID:Epithelial secretion of vinblastine by human intestinal adenocarcinoma cell (HCT-8 and T84) layers expressing P-glycoprotein. 168 Mar 66

Increased expression of P-glycoprotein (Pgp) has been demonstrated to cause multidrug resistance (MDR) in vitro, and it may be responsible for chemotherapy failure in a number of human cancers. Pgp is a plasma membrane protein thought to function as an energy-dependent drug transporter. From its deduced protein sequence the topology of Pgp was proposed to contain 12 transmembrane domains with six extracellular loops and two cytoplasmic ATP-binding sites. To investigate further the membrane orientation of Pgp, we have expressed a full length cDNA of mouse mdr1, as well as its truncated forms, in a cell-free system supplemented with dog pancreatic microsomal membranes (RM). We determined which domains of the in vitro-synthesized Pgp had transversed the RM membranes by analyzing their resistance to protease digestion and their glycosylation state. To our surprise, this system revealed that a significant portion of in vitro-synthesized Pgp molecules has an additional glycosylated domain in the C-terminal half. Previously, only the first predicted extracellular loop near the N terminus had been thought to be glycosylated. Furthermore, we discovered that Pgp has at least two functional signal recognition particle/docking protein dependent signal sequences, one at the N-terminal half and the other at the C-terminal half. These findings suggest a new topological model for in vitro synthesized P-glycoprotein which may be relevant to its in vivo topology.
J Biol Chem 1991 Sep 25
PMID:Study of membrane orientation and glycosylated extracellular loops of mouse P-glycoprotein by in vitro translation. 168 Aug 60

The development of resistance accounts for therapy failure in the majority of advanced cases of neuroblastoma in children. A new transplantable murine C-1300 neuroblastoma cell line was developed in vitro, by repeated exposure of a sensitive cell line to increasing, but sublethal, doses of Homoharringtonine (HHT). The ED50 of the highly resistant cells for HHT, using a standard agar colony assay, is 480 ng/ml, compared with 13 ng/ml for the sensitive parental line. The resistant cells have cross-resistance to a number of other agents, including adriamycin, vinca alkaloids, melphalan, and CCNU. Western blot analysis revealed progressive increases in P-glycoprotein, parallel to the graded development of resistance with a 29-fold elevation in the highest resistant cells. High-performance liquid chromatography (HPLC) indicated that resistant cells have a significantly lower uptake of HHT than parental sensitive cells. cyclosporine A (CsA) and dipyridamole (DPM) could modulate the acquired resistance and completely restore the cytotoxic effects of HHT and adriamycin as determined by the clonogenic assay. The reversal of resistance by CsA and DPM was dose dependent. With the relative low toxicity of dipyridamole and CsA in doses required for modulation of resistance, these agents may be candidates for clinical utilization in chemotherapy of resistant neuroblastoma.
J Cell Physiol 1991 Sep
PMID:Modulation of drug resistance in homoharringtonine-resistant C-1300 neuroblastoma cells with cyclosporine A and dipyridamole. 168 Aug 70


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