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)

P-glycoprotein containing 10 tandem histidine residues at the COOH end of the molecule was transiently expressed in HEK 293 cells and purified by nickel-chelate chromatography. The purified protein had an apparent mass of 170 kDa, and its verapamil-stimulated ATPase activity in the presence of phospholipid was 1.2 mumol/min/mg of P-glycoprotein. We then characterized P-glycoprotein mutants that exhibited altered drug-resistant phenotypes and analyzed the contribution of the two nucleotide binding folds to drug-stimulated ATPase activity. Mutation of residues in either nucleotide binding fold abolished drug-stimulated ATPase activity. The pattern of drug-stimulated ATPase activities of mutants, which conferred increased relative resistance to colchicine (G141V, G185V, G830V) or decreased relative resistance to all drugs (F978A), correlated with their drug-resistant phenotypes. By contrast, the ATPase activity of mutant F335A was significantly higher than that of wild-type enzyme when assayed in the presence of verapamil (3.4-fold), colchicine (9.1-fold), or vinblastine (3.7-fold), even though it conferred little resistance to vinblastine in transfected cells. These results suggest that both nucleotide-binding domains must be intact to couple drug binding to ATPase activity and that the drug-stimulated ATPase activity profile of a mutant does not always correlate with its drug-resistant phenotype.
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PMID:Rapid purification of human P-glycoprotein mutants expressed transiently in HEK 293 cells by nickel-chelate chromatography and characterization of their drug-stimulated ATPase activities. 766 54

P-glycoprotein consists of two homologous halves, each composed of six potential transmembrane sequences and an ATP-binding domain. The cDNA coding for human P-glycoprotein was divided in half and subcloned into separate plasmids in order to express each half as a separate polypeptide and to characterize its contribution to function. Expression of cDNAs coding for either the NH2- or COOH-terminal half-molecules in HEK 293 cells yielded products of 88 and 64 kDa, respectively. The NH2-terminal half-molecule was glycosylated, since its size decreased from 88 to 79 kDa when expressed in the presence of tunicamycin. No change was observed in the size of the COOH-terminal half-molecule when it was expressed in the presence of tunicamycin, indicating that it was not glycosylated. The cDNAs coding for each half of P-glycoprotein were transfected into NIH-3T3 cells to test for biological activity. No drug-resistant colonies were obtained when cells were transfected with cDNA coding for each half-molecule or when cells were co-transfected with both cDNAs, although stable expression of each half-molecule was detected. The inability to confer drug resistance was likely due to a defect in targeting of the half-molecules to the cell surface. Each half-molecule was then expressed in Sf9 insect cells using a baculovirus vector to allow measurement of partial function. The half-molecules exhibited ATPase activity, but their activities were not stimulated by drug substrates. Drug-stimulatable ATPase activity was present, however, when the half-molecules were expressed together. These results suggest that coupling of ATPase activity to drug binding requires interaction between both halves of P-glycoprotein.
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PMID:Reconstitution of drug-stimulated ATPase activity following co-expression of each half of human P-glycoprotein as separate polypeptides. 790 31

Several studies have demonstrated the presence of oligomers of P-glycoprotein in multidrug-resistant cells. The minimum functional unit of P-glycoprotein, however, is not known. In order to determine whether the functional unit is an oligomer, we tested for associations between P-glycoproteins containing either a histidine tag or the epitope tag for monoclonal antibody A52 at the COOH-terminal end of the molecule. Both tagged molecules were active and had indistinguishable drug resistance profiles. The tagged P-glycoproteins were expressed contemporaneously in HEK 293 cells, purified by nickel-chelate chromatography followed by immunoblot analysis. We found that P-glycoprotein-A52 did not copurify with functionally active P-glycoprotein-(His)10, even when the former was overexpressed relative to the histidine-tagged protein. Similar results were obtained with phosphorylation-deficient mutants of P-glycoprotein. By contrast, we could purify and reconstitute drug-stimulated ATPase activity when the half-molecules NH2-terminal half-(His)10/COOH-terminal half-A52 or NH2-terminal half-A52/COOH-terminal half-(His)10 were coexpressed in HEK 293 cells. These results suggest that nickel-chelate chromatography may be a suitable method for studying protein-protein interactions in membrane proteins and that the minimal functional unit of P-glycoprotein is likely to be a monomer.
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PMID:The minimum functional unit of human P-glycoprotein appears to be a monomer. 891 Mar 32

The R domain of cystic fibrosis transmembrane conductance regulator (CFTR) connects the two halves of the protein, each of which possess a transmembrane-spanning domain and a nucleotide binding domain. Phosphorylation of serine residues, which reside mostly within the C-terminal two-thirds of the R domain, is required for nucleotide-dependent activation of CFTR chloride channel activity. The N terminus of the R domain is also likely to be important in CFTR function, since this region is highly conserved among CFTRs of different species and exhibits sequence similarity with the "linker region" of the related protein, P-glycoprotein. To date, however, the role of this region in CFTR channel function remains unknown. In this paper, we report the effects of five disease-causing mutations within the N terminus of the CFTR-R domain. All five mutants exhibit defective protein processing in mammalian HEK-293 cells, suggesting that they are mislocalized and fail to reach the cell surface. However, in the Xenopus oocyte, three mutants reached the plasma membrane. One of these mutants, L619S, exhibits no detectable function, whereas the other two, D614G and I618T, exhibit partial activity as chloride channels. Single channel analysis of these latter two mutants revealed that they possess defective rates of channel opening, consistent with the hypothesis that the N terminus of the R domain participates in ATP-dependent channel gating. These findings support recent structural models that include this region within extended boundaries of the first nucleotide binding domain.
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PMID:A conserved region of the R domain of cystic fibrosis transmembrane conductance regulator is important in processing and function. 982 39

Human P-glycoprotein is synthesized in HEK 293 cells as two major products: the 150-kDa core-glycosylated intermediate and the 170-kDa mature proteins. The 150- and 170-kDa proteins were not detected in mutants such as G341C. The major protein in this mutant was a 130-kDa proteolytic degradation product. This result suggested that the mutant protein was misfolded and sensitive to proteolytic digestion during or immediately after synthesis. We found that mutation of Arg113, located in the first extracellular loop of P-glycoprotein and near the consensus glycosylation sites, to Ala, Lys, Glu, Met, or Cys blocked formation of the 130-kDa product. Introduction of R113A into mutant G341C resulted in the synthesis of a mature (170 kDa) and functional transporter. Similarly, when R113A was introduced into misprocessed mutants, there was increased synthesis of the 150-kDa core-glycosylated intermediate. Maturation of the core-glycosylated intermediate into the mature enzyme, however, was not observed. These results suggest that polytopic proteins are accessible to proteases in the lumen of the endoplasmic reticulum during biosynthesis and that proteases are important contributors to the quality control mechanism involved in protein folding. It is also shown that unstable proteins can be made more stable by removal of hypersensitive proteolytic sites.
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PMID:Quality control by proteases in the endoplasmic reticulum. Removal of a protease-sensitive site enhances expression of human P-glycoprotein. 982 63

There are two mouse P-glycoproteins that convey multidrug resistance, mdr1 (mdr1b) and mdr3 (mdr1a), by serving as drug efflux transporters. These proteins each exhibit tissue-specific expression. There is relatively high expression of the mdr1 gene in the adrenals, the site of glucocorticoid and mineralocorticoid hormone synthesis. We previously demonstrated that mdr1 gene expression in murine thymoma cells correlated well with a decrease in their ability to accumulate the glucocorticoid dexamethasone and their increased resistance to glucocorticoid-induced apoptosis. Additional evidence is presented that supports the proposition that the mdr1 P-glycoprotein can transport glucocorticoids. Specifically, introduction and expression of the mouse mdr1 gene in the human HEK 293T cell line conveys a multidrug resistance phenotype that includes a reduced capacity to accumulate dexamethasone. Moreover, isolation of additional mdr1-expressing mouse lymphoid cells, without using steroids in the selection, confirms the linkage between multidrug resistance conveyed by the mdr1 P-glycoprotein and resistance to dexamethasone. In contrast, two newly isolated lymphoid lines, selectively expressing the mdr3 gene, were not found to have increased dexamethasone resistance or the capacity to accumulate significantly lower levels of hormone. The results support the concept that the mdr1 and mdr3 P-glycoproteins may serve alternative roles in the transport of endogenous substances such as steroids.
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PMID:Profound differences in the transport of steroids by two mouse P-glycoproteins. 1048 77

Defining the residues involved in the binding of a substrate provides insight into how the human multidrug resistance P-glycoprotein (P-gp) can transport a wide range of structurally diverse compounds out of the cell. Because verapamil is the most potent stimulator of P-gp ATPase activity, we synthesized a thiol-reactive analog of verapamil (MTS-verapamil) and used it with cysteine-scanning mutagenesis to identify the reactive residues within the drug-binding domain of P-gp. MTS-verapamil stimulated the ATPase activity of Cys-less P-gp and had a K(m) value (25 microM) that was similar to that of verapamil. 252 P-gp mutants containing a single cysteine within the predicted transmembrane (TM) segments were expressed in HEK 293 cells and purified by nickel-chelate chromatography and assayed for inhibition by MTS-verapamil. The activities of 15 mutants, Y118C (TM2), V125C (TM2), S222C (TM4), L339C (TM6), A342C (TM6), A729C (TM7), A841C (TM9), N842C (TM9), I868C (TM10), A871C (TM10), F942C (TM11), T945C (TM11), V982C (TM12), G984C (TM12), and A985C (TM12), were inhibited by MTS-verapamil. Four mutants, S222C (TM4), L339C (TM6), A342C (TM6), and G984C (TM12), were significantly protected from inhibition by MTS-verapamil by pretreatment with verapamil. Less protection was observed in mutants I868C (TM10), F942C (TM11) and T945C (TM11). These results indicate that residues in TMs 4, 6, 10, 11, and 12 must contribute to the binding of verapamil.
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PMID:Defining the drug-binding site in the human multidrug resistance P-glycoprotein using a methanethiosulfonate analog of verapamil, MTS-verapamil. 1127 63

Cyclosporin A (CsA) treatment of HEK 293 cells expressing the rat heart RHE-1 (NCX1.1, EMBL accession number ) or the rat brain RBE-2 (NCX1.5, GenBank(TM) accession number ) Na(+)-Ca(2+) exchanger inhibited their transport activity in a concentration-dependent manner. The inhibition was detectable at 2 microm CsA, and exposure of the cells to 20 microm CsA resulted in a decrease of the Na(+)-dependent Ca(2+) uptake to about 20% relative to that of untreated cells. Determination of the surface expression of the exchanger protein revealed a parallel concentration-dependent reduction in the amount of the immunoreactive protein. No reduction was detected in the amount of total immunoreactive exchanger protein in CsA-treated cells relative to untreated ones. Among the different drugs tested, only PSC833, an analog of cyclosporin D, mimicked the effects of CsA. Exposure of the transfected cells to the chemically related cyclosporin D and macrolide drugs (FK506 or rapamycin) had no effect on the transport activity or the surface expression of the Na(+)-Ca(2+) exchanger. Co-expression of the human multidrug transporter P-glycoprotein (of which both drugs are modulators) with the cloned Na(+)-Ca(2+) exchanger revealed that transport activity and surface expression of each transporter in the co-transfected system were similar to those of each transporter alone in both the presence and absence of CsA or PSC833. CsA and PSC833 inhibited the surface expression of the NCX1 protein but did not alter the surface expression of P-glycoprotein. Unlike some P-glycoprotein endoplasmic reticulum-retained mutants (Loo, T. W., and Clarke, D. M. (1997) J. Biol. Chem. 272, 709-712), CsA did not rescue RBE-2/F913-->Stop, an endoplasmic reticulum-retained function-competent mutant of the Na(+)-Ca(2+) exchanger (Kasir, J., Ren, X., Furman, I., and Rahamimoff, H. (1999) J. Biol. Chem. 274, 24873-24880) and did not induce its kinesis to the surface membrane, further demonstrating molecular differences between P-glycoprotein and NCX1 mutants for interaction with CsA.
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PMID:Transport activity and surface expression of the Na+-Ca2+ exchanger NCX1 are inhibited by the immunosuppressive agent cyclosporin A and by the nonimmunosuppressive agent PSC833. 1170 Mar 17

Recent studies have shown that mutations at amino-acid 482 in the ABCG2 gene affect the substrate specificity of the protein. To delineate the effects of these mutations clearly, human embryonic kidney cells (HEK-293) were stably transfected with wild-type 482R or mutant 482G and 482T ABCG2. By flow cytometry, mitoxantrone, BODIPY-prazosin, and Hoechst 33342 were found to be substrates of all ABCG2 proteins, while rhodamine 123, daunorubicin, and LysoTracker Green were transported only by mutant ABCG2. In cytotoxicity assays, all ABCG2 proteins conferred high levels of resistance to mitoxantrone, SN-38, and topotecan, while mutant ABCG2 also exhibited a gain of function for mitoxantrone as they conferred a four-fold greater resistance compared to wild type. Cells transfected with mutant ABCG2 were 13- to 71- fold resistant to the P-glycoprotein substrates doxorubicin, daunorubicin, epirubicin, bisantrene, and rhodamine 123 compared to cells transfected with wild-type ABCG2, which were only three- to four-fold resistant to these compounds. ABCG2 did not confer appreciable resistance to etoposide, taxol or the histone deacetylase inhibitor depsipeptide. None of the transfected cell lines demonstrated resistance to flavopiridol despite our previous observation that ABCG2-overexpressing cell lines are cross-resistant to the drug. Recently reported inhibitors of ABCG2 were evaluated and 50 microM novobiocin was found to reverse wild-type ABCG2 completely, but only reverse mutant ABCG2 partially. The studies presented here serve to underscore the importance of amino-acid 482 in defining the substrate specificity of the ABCG2 protein and raise the possibility that amino-acid 482 mutations in human cancers could affect the clinical application of antagonists for ABCG2.
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PMID:Mutations at amino-acid 482 in the ABCG2 gene affect substrate and antagonist specificity. 1461 12

Pheophorbide a (PhA), a chlorophyll catabolite, was shown to be an ABCG2 substrate based on Abcg2(-/-) knockout mouse studies (J. W. Jonker et al., Proc. Natl. Acad. Sci. USA, 99: 15649-15654, 2002). We developed a functional assay for ABCG2 using PhA and the ABCG2 inhibitor fumitremorgin C. In selected cell lines expressing high levels of P-glycoprotein, multidrug resistance-associated protein 1, or ABCG2, PhA transport was observed only in cells expressing ABCG2. Fumitremorgin C-inhibitable PhA transport was found to correlate with cell surface ABCG2 expression as measured by the anti-ABCG2 antibody 5D3. We found that 100 micro M of the cyclin-dependent kinase inhibitor UCN-01 or 1 micro M of the P-glycoprotein inhibitor tariquidar inhibited ABCG2-mediated PhA transport. In 4-day cytotoxicity assays, ABCG2-mediated resistance to SN-38 and topotecan was abrogated in ABCG2-transfected HEK-293 cells treated with 1 micro M tariquidar, and ABCG2-transfected cells were 6-7-fold resistant to UCN-01. PhA is an ABCG2-specific substrate with potential value in measuring ABCG2 function and expression in clinical samples.
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PMID:Pheophorbide a is a specific probe for ABCG2 function and inhibition. 1497 80

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