Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P33527 (ABCC1)
1,164 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently reported that GS-X pump activity, as assessed by ATP-dependent transport of the glutathione-platinum complex and leukotriene C4, and intracellular glutathione (GSH) levels were remarkably enhanced in cis-diamminedichloroplatinum(II) (cisplatin)-resistant human leukemia HL-60 cells (Ishikawa, T., Wright, C. D., and Ishizuka, H. (1994) J. Biol. Chem. 269, 29085-29093). Now, using Northern hybridization and RNase protection assay, we provide evidence that the multidrug resistance-associated protein (MRP) gene, which encodes a human GS-X pump, is expressed at higher levels in cisplatin-resistant (HL-60/R-CP) cells than in sensitive cells, whereas amplification of the MRP gene is not detected by Southern hybridization. Culturing HL-60/R-CP cells in cisplatin-free medium resulted in reduced MRP mRNA levels, but these levels could be induced to rise within 30 h by cisplatin and heavy metals such as arsenite, cadmium, and zinc. The increased levels of MRP mRNA were closely related with enhanced activities of ATP-dependent transport of leukotriene C4 (LTC4) in plasma membrane vesicles. The glutathione-platinum (GS-Pt) complex, but not cisplatin, inhibited ATP-dependent LTC4 transport, suggesting that the MRP/GS-X pump transports both LTC4 and the GS-Pt complex. Expression of gamma-glutamylcysteine synthetase in the cisplatin-resistant cells was also co-induced within 24 h in response to cisplatin exposure, resulting in a significant increase in cellular GSH level. The resistant cells exposed to cisplatin were cross-resistant to melphalan, chlorambucil, arsenite, and cadmium. These observations suggest that elevated expression of the MRP/GS-X pump and increased GSH biosynthesis together may be important factors in the cellular metabolism and disposition of cisplatin, alkylating agents, and heavy metals.
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PMID:Coordinated induction of MRP/GS-X pump and gamma-glutamylcysteine synthetase by heavy metals in human leukemia cells. 866 1

We have cloned and characterized a Saccharomyces cerevisiae gene YRS1 that complements the phenotype of the mutant sensitive to the anionic drug reveromycin A. The YRS1 gene, which is identical to the recently identified YOR1 gene, encodes a protein with extensive homology to the human multidrug resistance-associated protein (MRP) and the yeast cadmium factor (Ycf1). A chromosomal deletion of YRS1 lead to viable Deltayrs1 cells, which exhibited hypersensitivity to reveromycin A. Elevation of the YRS1 gene dosage in wild type cells conferred increased resistance to reveromycin A. By analyzing the effect of YRS1 disruption and overexpression it was demonstrated that Yrs1 is involved in the detoxification of a wide range of the organic anions that contain carboxyl group(s) but none of the other type of toxic compounds examined. Fluorescence-activated cell sorter analysis indicated the increased accumulation of the anionic fluorescent compound rhodamine B in Deltayrs1 cells. The expression of YRS1 was induced strikingly by reveromycin A. These results suggest that Yrs1 is a multispecific organic anion transporter important for tolerance against toxic environmental organic anions. Yrs1 had an overlapping specificity with Ycf1 in the resistance to cadmium.
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PMID:The multidrug resistance-associated protein (MRP) subfamily (Yrs1/Yor1) of Saccharomyces cerevisiae is important for the tolerance to a broad range of organic anions. 866 18

Acquired resistance of mammalian cells to multiple chemotherapeutic drugs can result from enhanced expression of the multidrug resistance-associated protein (MRP), which belongs to the ABC transporter superfamily. ABC transporters play a role in the protection of organisms against exogenous toxins by cellular detoxification processes. We have identified four MRP homologues in the soil nematode Caenorhabditis elegans, and we have studied one member, mrp-1, in detail. Using an mrp::lacZ gene fusion, mrp-l expression was found in cells of the pharynx, the pharynx-intestinal valve and the anterior intestinal cells, the rectum-intestinal valve and the epithelial cells of the vulva. Targeted inactivation of mrp-l resulted in increased sensitivity to the heavy metal ions cadmium and arsenite, to which wild-type worms are highly tolerant. The most pronounced effect of the mrp-1 mutation is on the ability of animals to recover from temporary exposure to high concentrations of heavy metals. Nematodes were found to be hypersensitive to heavy metals when both the MRP homologue, mrp-1, and a member of the P-glycoprotein (Pgp) gene family, pgp-1, were deleted. We conclude that nematodes have multiple proteins, homologues of mammalian proteins involved in the cellular resistance to chemotherapeutic drugs, that protect them against heavy metals.
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PMID:Homologues of the human multidrug resistance genes MRP and MDR contribute to heavy metal resistance in the soil nematode Caenorhabditis elegans. 894 35

We have cloned, sequenced and characterized a gene from Trypanosoma cruzi (Y strain), termed tcpgp2, which encodes a member of the ABC (ATP-binding cassette) superfamily of evolutionarily conserved transport proteins. The nucleotide sequence of the tcpgp2 gene was determined. It presents a 4602-bp open reading frame, coding for a 1534-amino acid protein, with a predicted molecular mass of 169,470 Da. The deduced amino acid sequence of tcpgp2 exhibited a remarkable homology with the P-glycoprotein-related genes of Leishmania tarentolae, the yeast cadmium factor (YCF1) and the human multidrug resistance-associated protein (MRP). Southern blot analysis using a specific probe indicated that the Tcpgp2 P-glycoprotein is encoded by a single copy gene which maps to a chromosome of about 900 kb. Northern blot analysis revealed that tcpgp2 gene is expressed as a polyadenylated transcript of approximately 5 kb in dividing amastigote and epimastigote forms; we did not detect the transcript in the non-dividing trypomastigote forms of the parasite. Gene transfection experiments in Leishmania tropica indicated that, under the conditions tested, tcpgp2 gene is not involved in drug resistance.
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PMID:Molecular characterization of a P-glycoprotein-related tcpgp2 gene in Trypanosoma cruzi. 899 13

A group of ATP-binding cassette (ABC) transporters, including the yeast cadmium transporter (YCF1), the mammalian multidrug resistance-associated protein (MRP), the multispecific organic anion transporter and its congener (MOAT and EBCR), as well as the sulfonylurea receptor (SUR), group into a subfamily by sequence comparison. We suggest that these MRP-related proteins are also characterized by a special, common membrane topology pattern. The most studied ABC transporters, the cystic fibrosis transmembrane conductance regulator (CFTR) and the multidrug resistance (MDR) proteins, were shown to contain a tandem repeat of six transmembrane helices, each set followed by an ATP-binding domain. According to the present study, in contrast to various membrane topology predictions proposed for the different MRP-related proteins, they all seem to have a CFTR/MDR-like core structure, and an additional, large, N-terminal hydrophobic region. This latter domain is predicted to contain 4-6 (most probably 5) transmembrane helices, and is occasionally glycosylated on the cell surface. Since all the MRP-related transporters were shown to interact with anionic compounds, the N-terminal membrane-bound domain may have a key role in these interactions.
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PMID:Membrane topology distinguishes a subfamily of the ATP-binding cassette (ABC) transporters. 901 45

The multidrug resistance-associated protein (MRP) is an integral membrane protein that causes multidrug resistance when overexpressed in mammalian cells. Within the ATP-binding cassette superfamily, MRP belongs to a subgroup of structurally and functionally related proteins that includes the yeast cadmium factor 1 and yeast oligomycin resistance I proteins, and the mammalian sulfonylurea receptors SUR1 and SUR2. Hydropathy analysis of these proteins predicts a unique membrane-associated region at the amino terminus followed by a structural unit composed of 12 transmembrane (TM) domains and two nucleotide-binding domains that is characteristic of eukaryotic ATP-binding cassette transporters. The topology of the membrane-associated regions of MRP remains largely unknown and was investigated. Small hemagglutinin epitopes (YPYDVPDYAS) were inserted in predicted hydrophilic segments of the membrane-associated regions from the amino-terminal half of MRP and these proteins were expressed in HeLa cells, and tested for their capacity to confer etoposide resistance. The polarity of the inserted tags with respect to plasma membrane was then deduced by immunofluorescence in intact and permeabilized cells. Insertion of epitopes at positions 4, 163, 271, 574, and 653 produced functional proteins while insertions at positions 127, 417, 461, and 529 abrogated the capacity of MRP to confer drug resistance. Epitopes inserted at positions 4, 163, and 574 were localized extracellularly, whereas those inserted at positions 271 and 653 revealed an intracellular location. Although a single epitope inserted at position 461 was compatible with MRP function, it was inaccessible to the anti-epitope antibody and two copies of the tag at that site abrogated MRP function. These results indicate that the amino terminus of MRP is extracellular, while the linker segment joining the first and second membrane-associated regions is intracellular as is the first nucleotide-binding domain. Our findings are therefore consistent with a topological model of MRP that contains 5 TM segments in the first membrane-associated region and 6 TM segments in the second membrane region.
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PMID:Topology mapping of the amino-terminal half of multidrug resistance-associated protein by epitope insertion and immunofluorescence. 933 25

Ycf1p is the prototypical member of the yeast multidrug resistance-associated protein (MRP) subfamily of ATP-binding cassette (ABC) transporters. Ycf1p resides in the vacuolar membrane and mediates glutathione-dependent transport processes that result in resistance to cadmium and other xenobiotics. A feature common to many MRP proteins that distinguishes them from other ABC transporters is the presence of a hydrophobic N-terminal extension (NTE), whose function is not clearly established. The NTE contains a membrane spanning domain (MSD0) with five transmembrane spans and a cytosolic linker region (L0). The goal of this study was to determine the functional significance of the NTE of Ycf1p by examining the localization and functional properties of Ycf1p partial molecules, expressed either singly or together. We show that MSD0 plays a critical role in the vacuolar membrane trafficking of Ycf1p, whereas L0 is dispensable for localization. On the other hand, L0 is required for transport function, as determined by monitoring cadmium resistance. We also examine an unusual aspect of Ycf1p biology, namely, the posttranslational proteolytic processing that occurs within a lumenal loop of Ycf1p. Processing is shown to be Pep4p dependent and thus serves as a convenient marker for proper vacuolar localization. The processed fragments associate with each other, suggesting that these natural cleavage products contribute together to Ycf1p function.
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PMID:Requirement of the N-terminal extension for vacuolar trafficking and transport activity of yeast Ycf1p, an ATP-binding cassette transporter. 1247 64

Ycf1p, a member of the yeast multidrug resistance-associated protein (MRP) subfamily of ATP-binding cassette proteins, is a vacuolar membrane transporter that confers resistance to a variety of toxic substances such as cadmium and arsenite. Ycf1p undergoes a PEP4-dependent processing event to yield N- and C-terminal cleavage products that remain associated with one another. In the present study, we sought to determine whether proteolytic cleavage is required for Ycf1p activity. We have identified a unique region within lumenal loop 6 of Ycf1p, designated the loop 6 insertion (L6(ins)), which appears to be necessary and sufficient for proteolytic cleavage, since L6(ins) can promote processing when moved to new locations in Ycf1p or into a related transporter, Bpt1p. Surprisingly, mutational results indicate that proteolytic processing is not essential for Ycf1p transport activity. Instead, the L6(ins) appears to regulate substrate specificity of Ycf1p, since certain mutations in this region lower cellular cadmium resistance with a concomitant gain in arsenite resistance. Although some of these L6(ins) mutations block processing, there is no correlation between processing and substrate specificity. The activity profiles of the Ycf1p L6(ins) mutants are dramatically affected by the strain background in which they are expressed, raising the possibility that another cellular component may functionally impact Ycf1p activity. A candidate component may be a new full-length MRP-type transporter (NFT1), reported in the Saccharomyces Genome Database as two adjacent open reading frames, YKR103w and YKR104w, but which we show here is present in most Saccharomyces strains as a single open reading frame.
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PMID:A region within a lumenal loop of Saccharomyces cerevisiae Ycf1p directs proteolytic processing and substrate specificity. 1279 4

To elucidate the mechanisms involved in adaptation of lung epithelial cells to cadmium (Cd), we established a cell line that exhibits Cd-resistance (RWI38). RWI38 showed approximately 5-fold greater Cd-resistance (MTT assays) than WI38 cells, and cross-resistance to Zn and cisplatin. RWI38 cells also demonstrated an upregulated level of multidrug resistance-associated protein (MRP) and metallothionein (MT) (as shown by Western blot analysis and RT-PCR studies). The protein level of MRP decreased after Cd exposure in WI38 cells, but was sustained at high levels in RWI38 cells, leading led to enhanced calcein efflux. Cd induced Akt phosphorylation in RWI38 but not WI38 cells; this was prevented by probenecid or siRNA for MRP, both of which led to enhanced cell death, as demonstrated by capsase-3 activation and decreased cell viability. These results suggest a functional role for MRP in the regulation of the Akt pathway as well in the efflux pumping of drugs, thereby contributing toward the adaptation of cells to Cd toxicity. The findings of this study could be potentially beneficial in the design of therapeutic targets for Cd-induced tumor progression.
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PMID:Cadmium adaptation is regulated by multidrug resistance-associated protein-mediated Akt pathway and metallothionein induction. 1955 66

Several ABC transporters have been characterized from many aquatic organisms, but no information is yet available for Antarctic fish. The aim of this work was to identify the expression of genes for ABC proteins in Trematomus bernacchii, a bioindicator species of the Southern Ocean. Partial cDNA sequences of ABCB1, ABCC1, ABCC2, ABCC4 and ABCC9 were cloned from liver. Using RACE technology, 3.5 and 2.2 kb contigs were obtained for ABCB1 and ABCC2. Considering the elevated natural bioavailability of cadmium at Terra Nova Bay, responsiveness of ABCB1 and ABCC2 to this element was investigated under laboratory conditions. ABCB1 and ABCC2 mRNA levels were approximately four-fold higher in Cd-exposed fish compared to the controls. Induction of ABCB1 protein was also found by western blot. This study provides the first identification of five ABC genes in the liver of an Antarctic key species, some of which may be involved in cellular detoxification.
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PMID:Identification of five partial ABC genes in the liver of the Antarctic fish Trematomus bernacchii and sensitivity of ABCB1 and ABCC2 to Cd exposure. 2062 96


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