ABCC1 p.Pro557Ala

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PMID: 14722114 [PubMed] Koike K et al: "Identification of proline residues in the core cytoplasmic and transmembrane regions of multidrug resistance protein 1 (MRP1/ABCC1) important for transport function, substrate specificity, and nucleotide interactions."
No. Sentence Comment
57 Proline substitutions were generated in the pBluescriptSK(ϩ) and pGEM-3Z plasmids above according to the manufacturer`s instructions with the following mutagenic primers (substituted nucleotides are underlined): MSD2 Pro mutants, P323A, 5Ј-GTG TTA TAC AAG ACC TTT GGC GCC TAC TTC CTC ATG AGC-3Ј; P343A, 5Ј-G ATG ATG TTT TCC GGG GCG CAG ATC TTA AAG TTG C-3Ј; P359A, 5Ј-G AAT GAC ACG AAG GCC GCA GAC TGG CAG GG-3Ј; P448A, 5Ј-G ATC TGG TCA GCC GCC CTG CAA GTC ATC CTT GC-3Ј; P464A, 5Ј-G CTG AAT CTG GGC GCT TCC GTC CTG GCT GG-3Ј; P478A, 5Ј-G GTC CTC ATG GTG GCC GTC AAT GCT GTG-3Ј; P557A, 5Ј-CC TGG GTC TGC ACG GCC TTT CTG GTG GCC-3Ј; P595A, 5Ј-C AAC ATC CTC CGG TTT GCC CTG AAC ATT CTC C-3Ј; P600A, 5Ј-CCC CTG AAC ATT CTC GCG ATG GTC ATC TABLE I Conservation of MRP1 MSD2 and MSD3 Pro residues in human ABCC family members Sequences are from Swiss-Prot/TrEMBL entries P33527 (MRP1/ ABCC1), O15438 (MRP3,/ABCC3), Q92887 (MRP2,/ABCC2), O95255 (MRP6/ ABCC6), Q09428 (SUR1/ABCC8), O60706 (SUR2/ABCC9), Q8NHX7 (MRP7/ABCC10), O15439 (MRP4/ABCC4), O15440 (MRP5/ABCC5), and P13569 (CFTR/ABCC7).
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ABCC1 p.Pro557Ala 14722114:57:657
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115 The locations of the Pro residues mutated in the present study are highlighted, and the approximate boundaries of the TM helices are indicated by dashed lines. B, shown is a representative immunoblot of membrane vesicles prepared from HEK293T cells transfected with empty vector (pcDNA3.1(-)), wild-type (WT-MRP1), and mutant (P323A, P343A, P359A, P448A, P464A, P478A, P557A, P595A, and P600A) MRP1 cDNAs. MRP1 proteins were detected with mAb QCRL-1, and relative levels of expression estimated by densitometry are indicated; equal protein loading was confirmed by Amido Black staining of the polyvinylidene difluoride membrane and is shown below the blot.
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ABCC1 p.Pro557Ala 14722114:115:369
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123 [3 H]LTC4 uptake by the MSD2 mutants P323A and P359A was moderately reduced (by ϳ25%), whereas uptake by the P343A, P448A, P478A, P557A, and P595A TM mutants was substantially reduced (by 55-70%).
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ABCC1 p.Pro557Ala 14722114:123:136
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126 As shown in Fig. 2B, ATP-dependent uptake levels of this substrate by mutants P323A and P359A relative to wild-type MRP1 were moderately reduced (by ϳ30%), whereas uptake by mutants P343A, P448A, P557A, and P595A was substantially reduced (by 75-90%), and uptake by the P478A mutant was increased 1.5-fold.
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ABCC1 p.Pro557Ala 14722114:126:202
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129 Relative to wild-type MRP1, [3 H]MTX uptake by the P323A and P359A mutants was moderately reduced (by 30-40%), whereas uptake levels of the P343A, P448A, P557A, and P595A mutants were substantially reduced (by 75-90%).
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ABCC1 p.Pro557Ala 14722114:129:154
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132 Relative to wild-type MRP1, GSH uptake by six of the nine MSD2 Pro mutants (P323A, P343A, P448A, P478A, P557A, and P595A) was substantially reduced (60-93%), whereas GSH uptake levels by the P359A, P464A, and P600A mutants were comparable with wild-type MRP1 (Table II).
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ABCC1 p.Pro557Ala 14722114:132:104
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133 GSH-stimulated [3 H]E13SO4 uptake by the MSD2 Pro mutants was also measured and found to be moderately reduced in the P343A and P448A mutants (by 30-40%) and substantially reduced in the P557A and P595A mutants (by 75-85%).
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ABCC1 p.Pro557Ala 14722114:133:187
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140 TABLE II Summary of effects of MSD2 Pro substitutions on MRP1 vesicular transport activities Substrate % wild-type MRP1 activitya TM6 ECL3 P359A TM8 P448A ECL4 P464A TM9 P478A TM10 P557A TM11 P323A P343A P595A P600A LTC4 75 35 75 40 100 45 35 30 100 E217betaG 70 10 70 25 100 155 10 Ͻ5 100 MTX 60 20 70 20 135 125 25 10 100 GSH 40 35 100 15 100 20 Ͻ10 10 100 E13SO4 100 70 100 60 100 155 25 15 100 a The values shown are means of triplicate determinations in a single experiment and are representative of results obtained in 2-3 independent experiments (for details, see legend to Fig. 2 and text).
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ABCC1 p.Pro557Ala 14722114:140:181
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185 The horizontal white scale bar in the image represents 20 ␮m. Kinetic Parameters of [3 H]LTC4 and [3 H]E217betaG Uptake by MRP1 Pro Mutants-MSD2 TM mutants P343A, P448A, P478A, P557A, and P595A, MSD3 CL7 mutant P1150A, and TM14 mutant P1088A whose [3 H]LTC4 or [3 H]E217betaG transport properties were substantially altered relative to wild-type MRP1 were further characterized by kinetic analyses (Table IV).
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ABCC1 p.Pro557Ala 14722114:185:185
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189 The apparent Km(LTC4) values for MSD2 TM mutants P343A, P448A, P478A, and P557A (range 39-63) were all somewhat lower than wild-type MRP1 (72-115 nM) except for P595A (TM6), which was increased by nearly 5-fold (485 versus 115 nM).
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ABCC1 p.Pro557Ala 14722114:189:74
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191 Consequently, the overall LTC4 transport efficiency (Vmax/Km) of the P343A, P448A, P478A, and P557A mutants was moderately reduced (range 3.03 to 4.08) compared with wild-type MRP1 (5.83, 5.84).
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ABCC1 p.Pro557Ala 14722114:191:94
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198 Photolabeling of Wild-type and Pro Mutant MRP1 Proteins with [3 H]LTC4-To investigate further whether the reduced [3 H]LTC4 transport activity of the TM mutants P343A, P448A, P478A, P557A, P595A, and P1088A and the CL7 mutant P1150A was associated with a decrease in substrate binding, photolabeling experiments were carried out with this intrinsically photoactivable arachidonic acid derivative.
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ABCC1 p.Pro557Ala 14722114:198:182
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204 Radiolabeled vesicles enriched for wild-type MRP1 (WT-MRP1) and MRP1 mutants P343A, P448A, P1088A, P1150A, and empty vector control (pcDNA3.1(-)) are shown in the upper panel, and radiolabeled vesicles enriched for WT-MRP1 and mutants P478A, P557A, P595A, P1150A, and pcDNA3.1(-) are shown in the lower panel.
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ABCC1 p.Pro557Ala 14722114:204:242
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205 TABLE IV Kinetic parameters of vesicular LTC4 and E217beta G uptake by selected Pro mutants of MRP1 Km Vmax Vmax/ Km Mutant:WT nM pmol mg-1 min-1 ϫ10-3 Vmax/Km LTC4 WT-MRP1 72 422 5.86 1.0 P343A 50 203 4.06 0.7 P448A 39 155 3.97 0.7 P1088A 55 229 4.15 0.7 P1150A 40 182 4.55 0.8 WT-MRP1 115 674 5.85 1.0 P478A 49 160 3.24 0.6 P557A 63 191 3.02 0.5 P595A 485 239 0.49 0.1 E217betaG WT-MRP1 1017 176 0.17 1.0 P1088A 1390 165 0.12 0.7 P1150A 243 160 0.66 3.9 take of this conjugated organic anion at different ATP concentrations (Fig. 8A).
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ABCC1 p.Pro557Ala 14722114:205:332
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248 The almost total loss of MRP1 transport activity of the MSD2 TM mutants P343A, P448A, P557A, and P595A does not distinguish between a structural or dynamic role for these Pro residues but does confirm that these highly conserved residues are required for transport.
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ABCC1 p.Pro557Ala 14722114:248:86
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PMID: 17295059 [PubMed] Chang XB et al: "A molecular understanding of ATP-dependent solute transport by multidrug resistance-associated protein MRP1."
No. Sentence Comment
111 The P557A mutation in TM10 also exhibited significantly reduced transport of five organic anion substrates [75], whereas the other two mutations in TM10, T550A and T556A, modulate the drug resistance profile of MRP1 [78].
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ABCC1 p.Pro557Ala 17295059:111:4
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PMID: 19949927 [PubMed] Chang XB et al: "Molecular mechanism of ATP-dependent solute transport by multidrug resistance-associated protein 1."
No. Sentence Comment
104 Mutations of C43S in TM1 (112); P343A, K332L and K332D in TM6 (113, 114); W445A and P448A in TM8 (113, 115); T550A, T556A and P557A in TM10 (113, 116); N590A, F594A, P595A, N597A, S604A and S605A in TM11 (113, 117, 118); E1089Q, E1089A, E1089L, E1089N, K1092, S1097 and N1100 in TM14 (119, 120); R1197K in TM16 (121); Y1236F, T1241A, T1242A, T1242C, T1242S, T1242L, Y1243F, N1245A, W1246C, W1246A, W1246F, W1246Y or R1249K in TM17 (121-124) significantly affect MRP1 function.
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ABCC1 p.Pro557Ala 19949927:104:126
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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.Pro557Ala 21701864:62:53
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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.Pro557Ala 24157718:36:96
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