DrugBank:APRD00216 - FACTA Search

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Query: DrugBank:APRD00216 (ABC)
8,859 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P-glycoprotein, the product of the multidrug resistance (MDR1) gene, is an ATP-driven transmembrane pump that increases the resistance of cells by actively exporting toxic chemicals. In addition to transporting anticancer drugs, P-glycoprotein has been reported to extrude a variety of lipophilic drugs, such as calcium channel blockers, phenothiazines, cyclosporines etc. Interestingly, recent experiments suggest that steroid hormones may be physiologic substrates for P-glycoprotein. In addition, there exists a family of transporter genes with high structural homology to P-glycoprotein, the so-called ABC (ATP-binding casette) family. Although the physiological ligands for most of these transporters are unknown, there is increasing evidence that peptides may be transported by some of these proteins. Thus, the a-factor, a farnesylated pheromone with 13 amino acids, is exported from yeast cells by the product of the STE6 gene, a transporter protein with high homology to P-glycoprotein. Recently, we have cloned a novel member of the ABC-transporter gene family from neuroblastoma x glioma hybrid (NG-108-15) cells. This putative transporter gene ("NG-TRA") is expressed in the adrenal gland, kidney and in the brain. High amounts of NG-TRA mRNA are found in a variety of human brain tumors. Whether NG-TRA and/or other MDR-related transporters are involved in the transport of steroids, peptide hormones or growth factors remains to be established. If so, the cellular export of hormones by active pumps may represent a new mechanism of hormone secretion.
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PMID:New mechanisms of hormone secretion: MDR-like gene products as extrusion pumps for hormones? 135

Recent data concerning cloning and sequencing of mdr genes involved in multiple drug resistance in higher eukaryotes are reviewed. Structures of ABC-superfamily members, including the mdr products as well as mechanisms of their superproduction at various levels are considered. The possible role of MDR-transporter in normal tissues and various approaches to overcoming the MDR phenotype are discussed. Non-P-glycoprotein mechanisms of drug resistance capable to modify MDR phenotype and applications of mdr in biotechnology are provided.
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PMID:[Multiple resistance of eukaryotic cells caused by P-glycoprotein]. 135 45

Expression of P-glycoprotein, the product of the MDR1 gene, confers multidrug resistance on cell lines and human tumours (reviewed in refs 1,2). P-glycoprotein (relative molecular mass 170,000) is an ATP-dependent, active transporter which pumps hydrophobic drugs out of cells, but its normal physiological role is unknown. It is a member of the ABC (ATP-binding cassette) superfamily of transporters, which includes many bacterial transport systems, the putative peptide transporter from the major histocompatibility locus, and the product of the cystic fibrosis gene (the cystic fibrosis transmembrane regulator, CFTR). CFTR is located in the apical membranes of many secretory epithelia and is associated with a cyclic AMP-regulated chloride channel. At least two other chloride channels are present in epithelial cells, regulated by cell volume and by intracellular Ca2+, respectively. Because of the structural and sequence similarities between P-glycoprotein and CFTR, and because P-glycoprotein is abundant in many secretory epithelia, we examined whether P-glycoprotein might be associated with one or other of these channels. We report here that expression of P-glycoprotein generates volume-regulated, ATP-dependent, chloride-selective channels, with properties similar to channels characterized previously in epithelial cells.
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PMID:Volume-regulated chloride channels associated with the human multidrug-resistance P-glycoprotein. 137 98

The nucleotide sequence of the Bacillus licheniformis bacitracin-resistance locus was determined. The presence of three open reading frames, bcrA, bcrB and bcrC, was revealed. The BcrA protein shares a high degree of homology with the hydrophilic ATP-binding components of the ABC family of transport proteins. The bcrB and bcrC genes were found to encode hydrophobic proteins, which may function as membrane components of the permease. Apart from Bacillus subtilis, these genes also confer resistance upon the Gram-negative Escherichia coli. The presumed function of the Bcr transporter is to remove the bacitracin molecule from its membrane target. In addition to the homology of the nucleotide-binding sites, BcrA protein and mammalian multidrug transporter or P-glycoprotein share collateral detergent sensitivity of resistant cells and possibly the mode of Bcr transport activity within the membrane. The advantage of the resistance phenotype of the Bcr transporter was used to construct deletions within the nucleotide-binding protein to determine the importance of various regions in transport.
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PMID:Bacillus licheniformis bacitracin-resistance ABC transporter: relationship to mammalian multidrug resistance. 747 93

Expression of P-glycoprotein (PGP), the product of the multi-drug resistance mdr1 gene was studied by immunocytochemistry on bone marrow slides using JSB1 monoclonal antibody and the alkaline phosphatase-antialkaline phosphatase (APAAP) and avidin-biotin-peroxidase (ABC) techniques in 82 cases of untreated myelodysplastic syndromes (MDS), of whom ten had evolved to AML (MDS-AML). The relationship between PGP expression, myeloperoxidase activity and immunophenotype of blast cells, karyotype and outcome was also analyzed. PGP expression was found in the blasts of 34 of the 82 patients (41%), the majority of blasts being stained in positive cases. PGP positivity was rare in 'low risk' MDS (RA and RARS: 2/12 cases) as opposed to 'high risk' MDS (RAEB, RAEB-T, CMML: 25/60 cases) and MDS-AML (7/10 cases) (p = 0.04). PGP expression was positively correlated to the presence of myeloperoxidase activity in less than 3% of blasts (p = 0.025), and CD34 antigen expression (p = 0.04), whereas CD33 antigen expression had borderline significance (p = 0.07), demonstrating that PGP expression predominated in blasts with an immature phenotype. An abnormal karyotype, and especially the presence of monosomy 7, was not correlated to a higher incidence of PGP expression, however. There was a trend for more frequent progression to AML and for shorter survival in PGP-positive cases, but differences with PGP-negative cases were not significant. Twenty patients received intensive anthracycline-Ara-C chemotherapy and ten (50%) achieved complete response, including 9/13 (69%) PGP-negative cases and 1/7 (14%) PGP-positive cases (p = 0.03). Twenty other patients were treated with low-dose Ara-C and ten (50%) responded (complete or partial response). PGP-positivity did not negatively affect response to low-dose Ara-C: 4/11 responses in PGP-negative, and 6/9 responses in PGP-positive patients (p = 0.18). Because the treatment choice in advanced MDS (especially between anthracycline-Ara-C or low-dose Ara-C, chemotherapy) is difficult, our preliminary therapeutic results suggest that the analysis of PGP expression could have practical importance in MDS. These findings however, will have to be confirmed on larger numbers of patients. Clinical trials using drugs potentially reverting mdr, activity could also be warranted in MDS.
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PMID:Expression of the multidrug resistance P-glycoprotein and its relationship to hematological characteristics and response to treatment in myelodysplastic syndromes. 751 32

P-glycoprotein is an integral membrane protein that functions in multidrug resistance (MDR) cells as a drug efflux pump to maintain intracellular concentrations of antitumor drugs below cytotoxic levels. A homologue of the mammalian mdr gene has been isolated and characterized from Xenopus laevis (Xe-mdr). The cDNA was isolated from a tadpole cDNA library using the full length mouse mdrlb cDNA as a probe. The Xe-mdr encodes a protein that is 66% identical to the mouse mdrlb and 68% identical to the human mdrl. The predicted structure of the Xe-mdr gene product identifies twelve membrane spanning domains and two ATP binding sites both of which are the hallmark of the ABC (ATP binding cassette) transporters. Xe-mdr mRNA is expressed as a single message of 4.5 kb and is found predominantly in the intestine. Xe-mdr message is increased 3- to 4-fold in the ileum compared to the rest of the small intestine. In situ hybridization of sequential sections from the small intestine localized the expression of the Xe-mdr to the cells lining the lumenal epithelium. Brush border membrane vesicles prepared from the small intestine of Xenopus laevis effluxed vinblastine in an ATP-dependent manner. Efflux was decreased by verapamil, a known inhibitor of P-glycoprotein function. These studies indicate that the structure of Xe-mdr has been conserved and suggest that the protein has a role in maintaining the function of the normal intestine in Xenopus.
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PMID:A homologue of the mammalian multidrug resistance gene (mdr) is functionally expressed in the intestine of Xenopus laevis. 759 85

P-glycoprotein (Mdr1), a member of the ABC superfamily, is a pump able to transport several compounds across plasma membranes. It displays a high level of similarity with the MHC-linked transporters TAP1 and TAP2 which are involved in the delivery of immunogenic peptides across the endoplasmic reticulum. In the present study we analyze the P-glycoprotein's ability to interfere with the biosynthetic pathway of the MHC class I molecules. Our results show that P-glycoprotein is involved in the modulation of the MHC class I expression in multidrug-resistant tumor cell lines, COS1 cells transfected with mdr1 gene, and human T lymphocytes. Epitope screening evokes the possibility that P-glycoprotein induces a modulation of the different MHC class I forms expressed on the cell surface. We propose that P-glycoprotein is involved in the transport of antigenic protein fragments from the cytosol into the endoplasmic reticulum. The suggested mechanism could be physiologically relevant in tissues displaying a high Mdr1 activity, where this transporter could contribute to the regulation of locoregional immune responses.
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PMID:Cell surface expression of major histocompatibility class I antigens is modulated by P-glycoprotein transporter. 775 13

Multidrug-resistant tumor cells overexpress P-glycoprotein (170 kDa), a member of the ABC (ATP Binding Cassette)-transporter superfamily. P-glycoprotein has been implicated in transport of a broad range of amphiphilic, hydrophobic drugs from tumor cells. The sequence and structural organization of P-glycoprotein, which consists of 12 transmembrane helices and two cytoplasmic nucleotide binding domains, is similar to other ABC-transporters. It is believed that the nucleotide binding domains of various ABC transporters, which have 30-50% sequence identity, play an important role in coupling ATP hydrolysis to the transport process. To allow structure-function studies of the nucleotide binding domains, the carboxyl-terminal nucleotide binding domain (NBD) of Chinese hamster P-glycoprotein has been cloned, overexpressed, and purified both by itself and as a fusion with maltose-binding protein. It has been demonstrated that the carboxyl-terminal NBD, when overexpressed in Escherichia coli in the absence of transmembrane helices, has very low ATPase activity. This suggests that the amino-terminal nucleotide binding domain and possibly interaction with the transmembrane domains may be required for full ATPase activity. It is also consistent with the idea that the ATPase activity of P-glycoprotein is stimulated in the presence of drugs. Circular dichroism spectral analysis and the ability of carboxyl-terminal NBD, both by itself and as a fusion with maltose-binding protein, to bind ATP-agarose beads and P-glycoprotein specific monoclonal antibodies suggests that the polypeptide folds into a functional domain. Gel filtration chromatography and cross-linking studies indicate that the carboxyl-terminal NBD has a tendency to self-associate to form oligomers. It is speculated that the carboxyl-terminal NBD may play a role in self-association of P-glycoprotein molecules in the plasma membrane.
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PMID:Cloning, overexpression, purification, and characterization of the carboxyl-terminal nucleotide binding domain of P-glycoprotein. 777 70

The maltose transport system of Escherichia coli is a well-characterized member of the ATP binding cassette transporter superfamily. Members of this family share sequence similarity surrounding two short sequences (the Walker A and B sequences) which constitute a nucleotide binding pocket. It is likely that the energy from binding and hydrolysis of ATP is used to accomplish the translocation of substrate from one location to another. Periplasmic binding protein-dependent transport systems, like the maltose transport system of E.coli, possess a water-soluble ligand binding protein that is essential for transport activity. In addition to delivering ligand to the membrane-bound components of the system on the external face of the membrane, the interaction of the binding protein with the membrane complex initiates a signal that is transmitted to the ATP binding subunit on the cytosolic side and stimulates its hydrolytic activity. Mutations that alter the membrane complex so that it transports independently of the periplasmic binding protein also result in constitutive activation of the ATPase. Genetic analysis indicates that, in general, two mutations are required for binding protein-independent transport and constitutive ATPase. The mutations alter residues that cluster to specific regions within the membrane spanning segments of the integral membrane components MalF and MalG. Individually, the mutations perturb the ability of MBP to interact productively with the membrane complex. Genetic alteration of this signalling pathway suggests that other agents might have similar effects. These could be potentially useful for modulating the activities of ABC transporters such as P-glycoprotein or CFTR, that are implicated in disease.
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PMID:Mutations that alter the transmembrane signalling pathway in an ATP binding cassette (ABC) transporter. 815 12

We have shown previously that (a) aging leads to an increase in the proportion of murine splenic T cells that express high activity of P-glycoprotein (PGP), the ATP-dependent plasma membrane pump that mediates multiple drug resistance, and (b) PGPhi CD4 memory cells from mice of any age do not proliferate or secrete IL-4 after activation with anti-CD3 and IL2. We now report that the age-associated increase in expression of MHC Class I molecules is limited to the subset of T cells that overexpress PGP and thus extrude the fluorochrome R123 (the "R123lo" subset). Although H-2 levels increase on T cells of old mice, the levels of TAP1, a component of the polypeptide pump responsible for assembly and internal transport of Class I MHC molecules, decline, unexpectedly, by about fourfold in T cells from old donors. Thus, aging leads to reciprocal changes in the level of T-cell expression of PGP and TAP1, two closely related members of the ABC superfamily of peptide transport proteins.
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PMID:Reciprocal expression of P-glycoprotein and TAP1 accompanied by higher expression of MHC class I antigens in T cells of old mice. 854 4

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