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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 Mr 170,000 to 180,000 membrane glycoprotein associated with multidrug resistance (
P-glycoprotein
) is involved in drug transport mechanisms across the plasma membrane of multidrug-resistant cells. We have recently reported the purification of
P-glycoprotein
. The purified
P-glycoprotein
was found to have an ATPase activity, which might be coupled with the active efflux of anticancer drugs. In the present study, we have further studied the properties of the
P-glycoprotein
ATPase activity by an immobilized enzyme assay procedure using a
P-glycoprotein
-antibody-Protein A-Sepharose complex. GTP was also hydrolyzed by the
P-glycoprotein
, although less efficiently than ATP. The ATPase activity of
P-glycoprotein
had an optimal pH range around neutrality (pH 6.5-7.4). The detergent concentration of 3-[(3-cholamidopropyl)dimethyl-ammonio]-1-propane sulfonate used for protein solubilization was essential for enzyme recovery. Maximum activity was obtained when 0.1-0.2% 3-[(3-cholamidopropyl)dimethyl-ammonio]-propane sulfonate was used, while higher concentrations markedly inhibited the ATPase activity. The ATPase activity was dependent on Mg2+; maximum activity was obtained at 2-10 mM. Manganese and cobalt could substitute for magnesium as ionic cofactors. Divalent cations such as Ca2+, Zn2+,
Ni2+
, Cd2+, and Cu2+ inhibited the Mg2+-catalyzed ATP hydrolysis. N-Ethylmaleimide and vanadate inhibited the ATPase activity, while sodium azide or ouabain had no effect. Anticancer agents such as vincristine and Adriamycin did not affect the enzyme activity. In contrast, verapamil and trifluoperazine, agents which inhibit active drug efflux and restore drug sensitivity in resistant cells, caused an increase in the
P-glycoprotein
ATPase activity suggesting that
P-glycoprotein
might be the target molecule of these agents.
...
PMID:Characterization of the ATPase activity of the Mr 170,000 to 180,000 membrane glycoprotein (P-glycoprotein) associated with multidrug resistance in K562/ADM cells. 290 Jun 77
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.
...
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
Varying length cDNAs encoding the N-terminal nucleotide-binding domain (NBD1) from mouse mdr1 P-glyco- protein were prepared on the basis of structure predictions. Corresponding recombinant proteins were overexpressed in Escherichia coli, and the shortest one containing amino acids 395-581 exhibited the highest solubility. Insertion of an N-terminal hexahistidine tag allowed domain purification by
nickel
-chelate affinity chromatography. NBD1 efficiently interacted with nucleotides. Fluorescence methods showed that ATP bound at millimolar concentrations and its 2',3'-O-(2,4,6-trinitrophenyl) derivative at micromolar concentrations, while the 2'(3')-N-methylanthraniloyl derivative had intermediate affinity. Photoaffinity labeling was achieved upon irradiation with 8-azido-ATP. The domain exhibited ATPase activity with a Km for MgATP in the millimolar range, and ATP hydrolysis was competitively inhibited by micromolar 2',3'-O-(2,4,6-trinitrophenyl)-ATP. NBD1 contained a single cysteine residue, at position 430, that was derivatized with radiolabeled N-ethylmaleimide. Cysteine modification increased 6-fold the Kd for 2'(3')-N-methylanthraniloyl-ATP and prevented 8-azido-ATP photolabeling. ATPase activity was inhibited with a 5-fold increase in the Km for MgATP. The results suggest that chemical modification of Cys-430 is involved in the N-ethylmaleimide inhibition of whole
P-glycoprotein
by altering substrate interaction.
...
PMID:Recombinant N-terminal nucleotide-binding domain from mouse P-glycoprotein. Overexpression, purification, and role of cysteine 430. 866 20
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.
...
PMID:The minimum functional unit of human P-glycoprotein appears to be a monomer. 891 Mar 32
A system for expression and facile purification of the human
P-glycoprotein
(Pgp) from the yeast Saccharomyces cerevisiae is described. The wild-type human mdr1 cDNA was cloned into a high copy number yeast expression vector under the control of the constitutive promoter of the yeast plasma membrane H+-ATPase. Western blots of membranes from the stable transformants confirmed that the Pgp is expressed in yeast cells in amounts approximately 0.4% of the total yeast membrane protein. Density gradient sedimentation analysis of the yeast membranes indicated that the expressed Pgp is localized in the plasma membrane. Yeast cells transformed with the Pgp expression plasmid acquire increased resistance to valinomycin, suggesting that the expressed Pgp is properly folded and functional. The expressed Pgp can be solubilized from the yeast membranes with lysophosphatidylcholine, and when tagged with ten histidines at its C-terminus, can be readily purified to about 90% homogeneity by
Ni2+
affinity chromatography. About 50 microg of the Pgp can be purified from 20 mg of crude yeast membranes. The purified human Pgp exhibits a verapamil-stimulated ATPase activity and the maximal activity is 2.5 +/- 0.5 micromol/min per mg of Pgp, suggesting that the purified Pgp from yeast is highly functional. The Pgp expressed in yeast has the same electrophoretic mobility (ca. 130 kDa) as the Pgp produced in Sf9 insect cells and is unaffected by N-glycosidase treatment, suggesting that it is not glycosylated. Because of the relative ease of growing yeast in massive quantities this expression system appears to be excellent for producing this membrane transporter at levels sufficient for further biochemical and biophysical studies, and for site-directed mutagenesis studies as well.
...
PMID:Purification of functional human P-glycoprotein expressed in Saccharomyces cerevisiae. 924 72
A construct encoding a single chain variable fragment of the anti-
P-glycoprotein
monoclonal antibody C219 was made by combining the coding sequences for the heavy and light chain variable domains with a sequence encoding the flexible linker (GGGGS)3, an OmpA signal sequence, a c-myc identification tag, and a five-histidine purification tag. The construct was expressed in Escherichia coli and purified from the periplasmic fraction using a
nickel
chelate column and ion exchange chromatography. Three-step Western blot analysis showed that the construct retains binding affinity for
P-glycoprotein
. Crystals of 1.0 x 0.2 x 0.2 mm were grown in 100 mM citrate, pH 4.5, 21% polyethylene glycol 6000 in the presence of low concentrations of subtilisin, resulting in proteolytic removal of the linker and purification tags. The structure was solved to a resolution of 2.4 A with an R factor of 20.6, an Rfree of 28.5, and good stereochemistry. This result could lead to a clinically useful product based on antibody C219 for the diagnosis of
P-glycoprotein
-mediated multidrug resistance. The molecule will also be useful in biophysical studies of functional domains of
P-glycoprotein
, as well as studies of the intact molecule.
...
PMID:A single chain Fv fragment of P-glycoprotein-specific monoclonal antibody C219. Design, expression, and crystal structure at 2.4 A resolution. 936 49
Multiple topologies have been detected for the COOH-terminal half of the human multidrug resistance
P-glycoprotein
(
P-gp
). In one topology, the predicted third cytoplasmic loop (CL3) is on the cytoplasmic side (
P-gp
-CL3-cyt) of the membrane. In an alternate topology, CL3 is on the extracellular side of the membrane (
P-gp
-CL3-ext). It is not known if both forms of
P-gp
are active because it is difficult to distinguish either topology in the full-length molecule. When the halves of
P-gp
are expressed as separate polypeptides, the two topologies of the C-Half are readily distinguished on SDS-PAGE, because only the C-Half (CL3-ext) is glycosylated. To test whether both topologies can fold into an active enzyme, we assayed for interaction between the N- and C-Halves of
P-gp
since functional
P-gp
requires interaction between both halves. In a mutant
P-gp
(E875C) that gave about equal amounts of both topologies, only the C-Half (CL3-cyt) could be recovered by
nickel
chromatography after coexpression with the histidine-tagged N-Half
P-gp
. The isolated N-Half and E875C C-Half (CL3-cyt) polypeptides, when expressed together, exhibited verapamil- and vinblastine-stimulated ATPase activities that were similar to the wild-type enzyme. We also found that biosynthesis of mutant E875C C-Half in the presence of the N-Half
P-gp
resulted in enhanced expression of C-Half (CL3-cyt). By contrast, interaction of C-Half (CL3-ext) with N-Half
P-gp
was not detected. These results show that the topology of the C-Half portion of
P-gp
greatly influences its interactions with the amino-terminal half of the molecule.
...
PMID:The glycosylation and orientation in the membrane of the third cytoplasmic loop of human P-glycoprotein is affected by mutations and substrates. 1021 17
Lactococcus lactis possesses an ATP-binding cassette transporter, LmrA, which is a homolog of the mammalian multidrug resistance (MDR)
P-glycoprotein
, and is able to transport a broad range of structurally unrelated amphiphilic drugs. A histidine tag was introduced at the N-terminus of LmrA to facilitate purification by
nickel
affinity chromatography. The histidine-tagged protein was overexpressed in L. lactis using a novel protein expression system for cytotoxic proteins based on the tightly regulated, nisin-inducible nisA promoter. This system allowed us to get functional overexpression of LmrA up to a level of 30% of total membrane protein. For reconstitution, LmrA was solubilized with dodecylmaltoside, purified by
nickel
-chelate affinity chromatography, and reconstituted in dodecylmaltoside-destabilized, preformed liposomes prepared from L. lactis phospholipids. The detergent was removed by adsorption onto polystyrene beads. The LmrA protein was reconstituted in a functional form, and mediated the ATP-dependent transport of the fluorescent substrate Hoechst-33342 into the proteoliposomes. Interestingly, reconstituted LmrA also catalyzed the ATP-dependent transport of fluorescent phosphatidylethanolamine, but not of fluorescent phosphatidylcholine. These data demonstrate that LmrA activity is independent of accessory proteins and support the notion that LmrA may be involved in the transport of specific lipids or lipid-linked precursors in L. lactis.
...
PMID:The purified and functionally reconstituted multidrug transporter LmrA of Lactococcus lactis mediates the transbilayer movement of specific fluorescent phospholipids. 1058 54
A simplified method for the expression and purification of
P-glycoprotein
(Pgp) is presented. This method is based on the in-frame fusion of both a polyhistidine tail and a 100-amino acid residue biotin acceptor domain of oxaloacetate decarboxylase from Klebsiella pneumoniae at the carboxyl terminus end of Pgp (Pgp-H6BD). The expression/purification protocol for Pgp-H6BD involves high-level expression of the fusion protein in the yeast Pichia pastoris, biotinylation in vitro with biotin ligase, solubilization of crude membrane fractions in detergent, and affinity purification by a combination of
nickel
and avidin chromatography. Biotinylated Pgp binds to immobilized monomeric avidin and can be eluted with free biotin in a high state of purity. This protocol is rapid and efficient and yields purified Pgp which shows robust ATPase activity, as determined by vanadate-induced trapping of photoactive nucleotides and by direct measurement of ATP hydrolysis by Pgp-H6BD. This method should be useful for structural studies of the protein by spectroscopic or crystallographic approaches. This purified Pgp-H6BD preparation has been used to study the enantiomer-specific effects of inhibitors of Pgp-mediated drug transport on the drug-stimulated ATPase activity of the protein. A series of 1, 4-disubstituted piperazine derivatives with a central chiral carbon and modified at the head and tail groups are shown to stimulate Pgp ATPase activity in a dose-dependent fashion. Some of these compounds are also capable of inhibiting either vinblastine or verapamil stimulation of ATPase activity of Pgp in an enantiomer-specific fashion. The enantiomeric specific inhibitory activity of these compounds suggests complex interactions at a single substrate binding site(s) on Pgp.
...
PMID:Simple purification of highly active biotinylated P-glycoprotein: enantiomer-specific modulation of drug-stimulated ATPase activity. 1062 81
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.
...
PMID:Defining the drug-binding site in the human multidrug resistance P-glycoprotein using a methanethiosulfonate analog of verapamil, MTS-verapamil. 1127 63
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