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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)
Human
P-glycoprotein
(
P-gp
), an ATP-dependent efflux pump responsible for cross-resistance of human cancers to a variety of lipophilic compounds, is composed of two homologous halves, each containing six transmembrane domains and an ATP-binding/utilization domain. To determine whether each site can hydrolyze ATP simultaneously, we used an orthovanadate (Vi)-induced ADP-trapping technique (
P-gp
.MgADP.Vi). In analogy with other ATPases, a photochemical peptide bond cleavage reaction occurs within the Walker A nucleotide binding domain consensus sequence (GX4GK(T/S)) when the molecule is trapped with Vi in an inhibited catalytic transition state (
P-gp
.MgADP.Vi) and incubated in the presence of ultraviolet light. Upon reconstitution into proteoliposomes, histidine-tagged purified
P-gp
from baculovirus-infected insect cells had drug-stimulated ATPase activity. Reconstituted
P-gp
was incubated with either ATP or 8-azido-ATP in the presence or absence of Vi under ultraviolet (365 nm) light on ice for 60 min. The resultant products were separated by
SDS
-polyacrylamide gel electrophoresis and subjected to immunoblotting with seven different human
P-gp
-specific antibodies covering the entire length of the molecule. Little to no degradation of
P-gp
was observed in the absence of Vi. In the presence of Vi, products of approximately 28, 47, 94, and 110 kDa were obtained, consistent with predicted molecular weights from cleavage at either of the ATP sites but not both sites. An additional Vi-dependent cleavage site was detected at or near the trypsin site in the linker region of
P-gp
. These results suggest that both the amino- and carboxyl-terminal ATP sites can hydrolyze ATP. However, there is no evidence that ATP can be hydrolyzed simultaneously by both sites.
...
PMID:Mechanism of action of human P-glycoprotein ATPase activity. Photochemical cleavage during a catalytic transition state using orthovanadate reveals cross-talk between the two ATP sites. 964 11
Two main isoforms of P-glycoproteins can be distinguished according to their solubility in ionic and non-ionic detergents. Studies on mdr cell lines and brain capillary vessels support the evidence that tomato lectin reveals high affinity binding to the oligosaccharide chains of the
SDS
soluble isoform of
P-glycoprotein
, but not to the non-ionic detergent soluble isoform. Thus the
SDS
-soluble isoform represents a glycoform having polylactosamines in its oligosaccharide chains. The function of these oligosaccharides is still unknown, although the carbohydrate chains of
P-glycoprotein
were believed to take part in correct protein folding only. We also demonstrated that lectin binding to the extracellular lactosamine sequences of drug efflux pump does not change its efficiency on mdr cell lines, but interferes with the inhibitory action of some drugs, such as verapamil and promethazine. In accordance with earlier findings we assume that carbohydrate chains might be involved in stabilization of the active conformation of efflux pump. The possible role of lectin treatment in maintaining
P-glycoprotein
mediated blood-brain barrier functions has to be proved in further investigations.
...
PMID:Tomato lectin labels the 180 kD glycoform of P-glycoprotein in rat brain capillary endothelia and mdr tumor cells. 971 18
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
In rat pancreatic zymogen granules (ZG), an ATP-sensitive K(+) conductance and a Cl(-) conductance have been characterized that are inversely regulated by an approximately 65-kDa multidrug resistance
P-glycoprotein
(mdr1) gene product. In search of a label for purification of this protein, we found that the dihydropyridine derivative (-)-[(3)H]BZDC-DHP, a recently developed high-affinity ligand for Mdr1, binds with similar affinity to ZG membranes (ZGM) (K(d) = 6.2 nM). Binding was inhibited by nanomolar concentrations of the L-type Ca(2+) channel blockers azidopine and verapamil and by micromolar concentrations of the K(+) channel blockers glibenclamide and quinidine. Inhibition by glibenclamide was noncompetitive. The Mdr1 modulators cyclosporin A and vinblastine did not inhibit binding, which is different from Mdr1. In addition, only (+/-)-BZDC-DHP, azidopine, and verapamil selectively inhibited the K(+) conductance in ZGs, whereas the Cl(-) conductance was not affected. In photoaffinity labeling experiments, (-)-[(3)H]BZDC-DHP surprisingly specifically and selectively labeled a approximately 19-kDa protein in ZGM with a pharmacological profile identical with the high-affinity binding site but did not label a 65-kDa protein. The 19-kDa protein was purified by ion exchange chromatography and
SDS
-polyacrylamide gel electrophoresis and sequenced. The sequence obtained corresponds to ZG-16p, a recently cloned ZG protein with no apparent homology to Mdr1. The identity of the 19-kDa protein was confirmed by immunoprecipitation of (-)-[(3)H]BZDC-DHP-labeled ZGM with an anti-ZG-16p antibody. Furthermore, it is shown that ZG-16p is associated with the ZGM. We propose that ZG-16p, as part of the submembranous granule matrix, regulates the ATP-sensitive K(+) conductance of ZGs.
...
PMID:Photoaffinity labeling and purification of ZG-16p, a high-affinity dihydropyridine binding protein of rat pancreatic zymogen granule membranes that regulates a K(+)-selective conductance. 1064 40
Residues from several transmembrane (TM) segments of
P-glycoprotein
(
P-gp
) likely form the drug-binding site(s). To determine the organization of the TM segments, pairs of cysteine residues were introduced into the predicted TM segments of a Cys-less
P-gp
, and the mutant protein was subjected to oxidative cross-linking. In
SDS
gels, the cross-linked product migrated with a slower mobility than the native protein. The cross-linked products were not detected in the presence of dithiothreitol. Cross-linking was observed in 12 of 125 mutants. The pattern of cross-linking suggested that TM6 is close to TMs 10, 11, and 12, while TM12 is close to TMs 4, 5, and 6. In some mutants the presence of drug substrate colchicine, verapamil, cyclosporin A, or vinblastine either enhanced or inhibited cross-linking. Cross-linking was inhibited in the presence of ATP plus vanadate. These results suggest that the TM segments critical for drug binding must be close to each other and exhibit different conformational changes in response to binding of drug substrate or vanadate trapping of nucleotide. Based on these results, we propose a model for the arrangement of the TM segments.
...
PMID:The packing of the transmembrane segments of human multidrug resistance P-glycoprotein is revealed by disulfide cross-linking analysis. 1068 95
Limited trypsin digestion was used to monitor nucleotide-induced conformational changes in wild-type
P-glycoprotein
(Pgp) as well as in nucleotide binding domain (NBD) Pgp mutants. Purified and reconstituted wild-type or mutant mouse Mdr3 Pgps were preincubated with different hydrolyzable or nonhydrolyzable nucleotides, followed by limited proteolytic cleavage at different trypsin:protein ratios. The Pgp tryptic digestion products were separated by
SDS
-PAGE followed by immunodetection with the mouse monoclonal anti-Pgp antibody C219, which recognizes a conserved epitope (VVQE/AALD) in each half of the protein. Different trypsin digestion patterns were observed for wild-type Pgp incubated with MgCl(2) alone, MgADP, MgAMP.PNP, MgATP, and MgATP + vanadate. A unique trypsin digestion profile suggestive of enhanced resistance to trypsin was observed under conditions of vanadate-induced trapping of nucleotides (MgATP + vanadate). The trypsin sensitivity profiles of Pgp mutants bearing either single or double mutations in Walker A (K429R, K1072R) and Walker B (D551N, D1196N) sequence signatures of NBD1 and NBD2 were analyzed under conditions of vanadate-induced trapping of nucleotides. The proteolytic cleavage pattern observed for the double mutants K429R/K1072R and D551N/D1196N, and for the single mutants K429R, K1072R, and D1196N were similar and clearly distinct from wild-type Pgp under the same conditions. This is consistent with the absence of ATP hydrolysis and of vanadate-induced trapping of 8-azido-ADP previously reported for these mutants [Urbatsch et al. (1998) Biochemistry 37, 4592-4602]. Interestingly, the trypsin digestion profiles observed under vanadate-induced trapping for the D551N and D1196N mutants were quite different, with the D551N mutant showing a profile resembling that seen for wild-type Pgp. The different sensitivity profiles of Pgp mutants bearing mutations at the homologous residue in NBD1 (D551N) and NBD2 (D1196N) suggest possible structural and functional differences between the two sites.
...
PMID:Nucleotide-induced conformational changes in P-glycoprotein and in nucleotide binding site mutants monitored by trypsin sensitivity. 1075 6
P-glycoprotein
(
P-gp
) is an ATP-dependent drug pump that contains two nucleotide-binding domains (NBDs). Disulfide cross-linking analysis was done to determine if the two NBDs are close to each other. Residues within or close to the Walker A (GNSGCGKS in NDB1 and GSSGCGKS in NBD2) sequences for nucleotide binding were replaced with cysteine, and the mutant P-gps were subjected to oxidative cross-linking. Cross-linking was detected in two mutants, G427C(NBD1)/Cys-1074(NBD2) and L439C(NBD1)/Cys-1074(NBD2), because the cross-linked proteins migrated slower in
SDS
gels. Mutants G427C(NBD1)/Cys-1074(NBD2) and L439C(NBD1)/Cys-1074(NBD2) retained 10% and 82%, respectively, of the drug-stimulated ATPase activity relative to that of Cys-less
P-gp
. The cross-linking properties of the more active mutant L439C(NBD1)/Cys-1074(NBD2) were then studied. Cross-linking was reversed by addition of dithiothreitol and could be prevented by pretreatment of the mutant with N-ethylmaleimide. Cross-linking was also inhibited by MgATP, but not by the verapamil. Oxidative cross-linking of mutant L439C(NBD1)/Cys-1074(NBD2) resulted in almost complete inhibition of drug-stimulated ATPase activity. More than 60% of the drug-stimulated ATPase activity, however, was recovered after treatment with dithiothreitol. The results indicate that the two predicted nucleotide-binding sites are close to each other and that cross-linking inhibits ATP hydrolysis.
...
PMID:Drug-stimulated ATPase activity of human P-glycoprotein is blocked by disulfide cross-linking between the nucleotide-binding sites. 1080 88
Human wild-type and Cys-less P-glycoproteins were expressed in Pichia pastoris and purified in high yield in detergent-soluble form. Both ran on
SDS
gels as a single 140-kDa band in the presence of reducing agent and showed strong verapamil-stimulated ATPase activity in the presence of added lipid. The wild type showed spontaneous formation of higher molecular mass species in the absence of reducing agent, and its ATPase was activated by dithiothreitol. Oxidation with Cu(2+) generated the same higher molecular mass species, primarily at 200 and approximately 300 kDa, in high yield. Cross-linking was reversed by dithiothreitol and prevented by pretreatment with N-ethylmaleimide. Using proteins containing different combinations of naturally occurring Cys residues, it was demonstrated that an inhibitory intramolecular disulfide bond forms between Cys-431 and Cys-1074 (located in the Walker A sequences of nucleotide-binding sites 1 and 2, respectively), giving rise to the 200-kDa species. In addition, dimeric
P-glycoprotein
species ( approximately 300 kDa) form by intermolecular disulfide bonding between Cys-431 and Cys-1074. The ready formation of the intramolecular disulfide between Cys-431 and Cys-1074 establishes that the two nucleotide-binding sites of
P-glycoprotein
are structurally very close and capable of intimate functional interaction, consistent with available information on the catalytic mechanism. Formation of such a disulfide in vivo could, in principle, underlie a regulatory mechanism and might provide a means of intervention to inhibit
P-glycoprotein
.
...
PMID:Cysteines 431 and 1074 are responsible for inhibitory disulfide cross-linking between the two nucleotide-binding sites in human P-glycoprotein. 1135 25
We identified a thiol-reactive substrate, Tris-(2-maleimidoethyl)amine (TMEA), to explore the contribution of the TM segments 6 and 12 of the human multidrug resistance
P-glycoprotein
(
P-gp
) during transport. TMEA is a trifunctional maleimide and stimulated the ATPase activity of Cys-less
P-gp
about 7-fold. Cysteine-scanning mutagenesis of TM12 showed that the activity of mutant V982C was inhibited by TMEA.
P-gp
mutants containing V982C (TM12) and another cysteine in TM6 were constructed and tested for cross-linking with TMEA. A cross-linked product was observed in
SDS
-polyacrylamide gel electrophoresis for mutant L339C(TM6)/V982C(TM12). Cross-linking by TMEA also inhibited the ATPase activity of the mutant protein. Substrates such as cyclosporin A, vinblastine, colchicine, or verapamil inhibited cross-linking by TMEA. In the presence of ATP at 37 degrees C, cross-linking of mutant L339C/V982C was decreased. In contrast, there was enhanced cross-linking of mutant F343C(TM6)/V982C(TM12) in the presence of ATP. These results show that cross-linking must be within the drug-binding domain, that residues L339C(TM6)/V982C(TM12) must be at least 10 A apart, and that ATP hydrolysis promotes rotation of one or both TM helices.
...
PMID:Cross-linking of human multidrug resistance P-glycoprotein by the substrate, tris-(2-maleimidoethyl)amine, is altered by ATP hydrolysis. Evidence for rotation of a transmembrane helix. 1142 7
The human multidrug resistance
P-glycoprotein
(
P-gp
) interacts with a broad range of compounds with diverse structures and sizes. There is considerable evidence indicating that residues in transmembrane segments 4-6 and 10-12 form the drug-binding site. We attempted to measure the size of the drug-binding site by using thiol-specific methanethiosulfonate (MTS) cross-linkers containing spacer arms of 2 to 17 atoms. The majority of these cross-linkers were also substrates of
P-gp
, because they stimulated ATPase activity (2.5- to 10.1-fold). 36
P-gp
mutants with pairs of cysteine residues introduced into transmembrane segments 4-6 and 10-12 were analyzed after reaction with 0.2 mm MTS cross-linker at 4 degrees C. The cross-linked product migrated with lower mobility than native
P-gp
in
SDS
gels. 13
P-gp
mutants were cross-linked by MTS cross-linkers with spacer arms of 9-25 A. Vinblastine and cyclosporin A inhibited cross-linking. The emerging picture from these results and other studies is that the drug-binding domain is large enough to accommodate compounds of different sizes and that the drug-binding domain is "funnel" shaped, narrow at the cytoplasmic side, at least 9-25 A in the middle, and wider still at the extracellular surface.
...
PMID:Determining the dimensions of the drug-binding domain of human P-glycoprotein using thiol cross-linking compounds as molecular rulers. 1151 1
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