ABCC1 p.Trp553Ala
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PMID: 12388549
[PubMed]
Koike K et al: "Multiple membrane-associated tryptophan residues contribute to the transport activity and substrate specificity of the human multidrug resistance protein, MRP1."
No.
Sentence
Comment
48
Tryptophan substitutions were generated in the pGEM-3Z and pBluescriptSK(ϩ) plasmids above according to the manufacturer`s instructions with the following mutagenic primers (substituted nucleotides are underlined): MSD1 Trp mutants W40A (5Ј-G GTC CTC GTG GCC GTG CCT TG-3Ј, W47A (5Ј-GT TTT TAC CTC GCC GCC TGT TTC CCC-3Ј), W82A (5Ј-C TTG GGA TTT TTG CTG GCG ATC GTC TGC TGG GC-3Ј), W86A (5Ј-G CTG TGG ATC GTC TGC GCT GCA GAC CTC TTC TAC TC-3Ј), W94A (5Ј-C CTC TTC TAC TCT TTC GCG GAA AGA AGT CGG GGC-3Ј), W142A (5Ј-GGG ATC ATG CTC ACT TTC GCA CTG GTA GCC CTA ATG TG-3Ј), W142F (5Ј-G CTC ACT TTT TTC CTG GTA GCC C-3Ј); MSD2 Trp mutants W361A (5Ј-C ACG AAG GCC CCA GAT GCG CAG GGC TAC TTC TAC-3Ј), W445A (5Ј-G TAC ATT AAC ATG ATC GCG TCA GCC CCC CTG CAA G-3Ј), W445F (5Ј-CG TAC ATT AAC ATG ATC TTC TCA GCC CCC CTG CAA GTC-3Ј), W445Y (5Ј-CC ACG TAC ATT AAC ATG ATC TAC TCA GCG CCC CTG CAA GTC-3Ј), W459A (5Ј-GCT CTC TAC CTC CTG GCG CTG AAT CTG GGC CC-3Ј), W553A (5Ј-G GGC ACC TTC ACC GCG GTC TGC ACG CCC-3Ј), W553F (5Ј-G GGC ACC TTC ACC TTC GTC TGC ACG CCC-3Ј), W553Y (5Ј-GCC CTG GGC ACC TTC ACA TAT GTC TGC ACG CCC-3Ј; and MSD3 Trp mutants W1198A (5Ј-C GTG GCC AAC AGG GCG CTG GCC GTG CGG C-3Ј), W1198F (5Ј-GTG GCC AAC AGG TTC CTG GCC GTG CGG C-3Ј), W1198Y (5Ј-GTG GCC AAC AGG TAC CTG GCC GTG CGG C-3Ј).
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ABCC1 p.Trp553Ala 12388549:48:1103
status: NEW50 Construction of MRP1-GFP Fusion Proteins-Constructs encoding GFP fusion proteins of selected MRP1 Trp mutations were generated by exchanging the 1.3-kb ClaI/AflII fragment of a pcDNA3.1(-)-MRP1-GFP construct with the comparable fragments containing the W445A, W553A, and W1198A mutations generated above and designated pcDNA3.1-W445A/MRP1-GFP, pcDNA3.1-W553A/MRP1-GFP, and pcDNA3.1-W1198A/MRP1-GFP, respectively (39).
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ABCC1 p.Trp553Ala 12388549:50:260
status: NEWX
ABCC1 p.Trp553Ala 12388549:50:353
status: NEW108 All four mutants generated (W361A, W445A, W459A, and W553A) were expressed at levels 60-90% those of wild-type MRP1, indicating that none of the mutations had a major effect on the expression levels of the protein.
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ABCC1 p.Trp553Ala 12388549:108:53
status: NEW110 After 1 min, ATP-dependent [3 H]LTC4 uptake by the W445A and W553A MRP1 mutants was reduced by ϳ75 and 50%, respectively, whereas uptake by the W361A and W459A mutants was comparable with wild-type MRP1 (Fig. 3B).
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ABCC1 p.Trp553Ala 12388549:110:61
status: NEW113 In contrast, after 1 min, [3 H]E217betaG uptake by the W361A, W445A, and W553A MRP1 mutants was ϳ50, 25, and 10%, respectively, of wild-type MRP1 (Fig. 3D).
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ABCC1 p.Trp553Ala 12388549:113:73
status: NEW119 Similarly, GSH-stimulated E13SO4 uptake levels by the W445A and W553A mutants were just 30 and Ͻ10% of wild-type MRP1 levels, respectively, whereas uptake by the W361A mutant was similar to wild-type MRP1, and uptake by W459A MRP1 was reduced by just 25% (Fig. 4B).
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ABCC1 p.Trp553Ala 12388549:119:64
status: NEW121 A, ATP-dependent uptake of [3 H]LTC4 was measured in membrane vesicles prepared from HEK293T cells transfected with empty vector pcDNA3.1(-) (E) and vectors containing wild-type MRP1 (f) and MSD2 Trp-Ala mutant MRP1 cDNAs (W361A, Œ; W445A, ; W459A, ࡗ; and W553A, q).
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ABCC1 p.Trp553Ala 12388549:121:274
status: NEW124 C, the time course of ATP-dependent uptake of [3 H]E217betaG by wild-type MRP1 and MSD2 mutants W361A, W445A, W459A, and W553A was measured as described for A. D, relative levels of [3 H]E217betaG uptake at 1 min are shown and were determined from the time course shown in C as described for B.
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ABCC1 p.Trp553Ala 12388549:124:121
status: NEW126 Finally, [3 H]MTX uptake by the W445A and W553A MRP1 mutants, as observed for GSH and E13SO4 uptake, was dramatically reduced by more than 80% (Fig. 4C).
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ABCC1 p.Trp553Ala 12388549:126:42
status: NEW128 Thus, substitution of either Trp445 or Trp553 by an Ala residue resulted in a general loss of MRP1 organic anion transport activity, whereas Ala substitution of Trp361 and Trp459 had a much more moderate and selective effect on the substrate specificity of the protein.
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ABCC1 p.Trp553Ala 12388549:128:39
status: NEW148 In contrast to the W445A and W1198A mutants, more conservative substitutions of the Ala-substituted Trp553 mutant W553A were much less effective in restoring MRP1 transport activity.
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ABCC1 p.Trp553Ala 12388549:148:114
status: NEW153 Relative uptake levels of 3 H-labeled organic anions by membrane vesicles enriched for wild-type MRP1 (solid bar) and W361A, W445A, W459A, and W553A mutant MRP1 proteins (shaded bars) were determined as described under "Experimental Procedures."
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ABCC1 p.Trp553Ala 12388549:153:143
status: NEW183 Similarly, the transport of four MRP1 substrates by the W553A mutant was decreased by at least 80%, and transport of the fifth, LTC4, was reduced by ϳ50%.
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ABCC1 p.Trp553Ala 12388549:183:56
status: NEW189 Ala substitution of Trp1198 in MSD3 also resulted in a broad and profound decrease in MRP1 transport activity except for FIG. 6. ATP-dependent organic anion transport activity of wild-type and mutant MRP1 containing conservative Phe and Tyr substitutions of Trp1198 in TM16 of MSD3. A, immunoblot of membrane vesicles prepared from HEK293T cells transfected with empty vector (pcDNA3.1(-)), wild-type (WT-MRP1), and mutant (W445A, W445F, and W445Y; W553A, W553F and W553Y; W1198A, W1198F, and W1198Y) MRP1 cDNAs. MRP1 proteins were detected with monoclonal antibody QCRL-1, and relative levels of expression shown under the blot were estimated by densitometry.
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ABCC1 p.Trp553Ala 12388549:189:449
status: NEW191 Ala-substituted mutants (W445A, W553A, and W1198A; shaded bars) were included for comparison.
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ABCC1 p.Trp553Ala 12388549:191:32
status: NEW194 The Ala-substituted Trp1246 mutant, like W553A and W1198A, also showed significantly reduced transport of multiple MRP1 substrates with the exception of LTC4 (39).
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ABCC1 p.Trp553Ala 12388549:194:41
status: NEW224 HEK293T cells were transfected with pcDNA3.1(-)MRP1K-GFP (WT-MRP1-GFP) (A), pcDNA3.1-W445A/MRP1-GFP (B), pcDNA3.1-W553A/MRP1-GFP (C), and pcDNA3.1-W1198A/MRP1-GFP (D), and 48 h later, cells were processed for confocal fluorescence microscopy.
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ABCC1 p.Trp553Ala 12388549:224:114
status: NEW
PMID: 21701864
[PubMed]
de Foresta B et al: "Transverse and tangential orientation of predicted transmembrane fragments 4 and 10 from the human multidrug resistance protein (hMRP1/ABCC1) in membrane mimics."
No.
Sentence
Comment
62
In addition, mutations affecting the single proline (P557A) or the single Trp (W553A) residue decreased the transport of various organic anion substrates (Koike et al. 2002, 2004).
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ABCC1 p.Trp553Ala 21701864:62:79
status: NEW
PMID: 24157718
[PubMed]
Abel S et al: "Bindings of hMRP1 transmembrane peptides with dodecylphosphocholine and dodecyl-beta-d-maltoside micelles: a molecular dynamics simulation study."
No.
Sentence
Comment
36
For example, mutations of two threonine (T550A and T556A), a tryptophan (W553A), and a proline (P557A) in TM10 modify the drug-resistance profile of the protein or decrease the transport of various organic substrates [32-35].
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ABCC1 p.Trp553Ala 24157718:36:73
status: NEW