ABCB1 p.Phe957Ala
| Predicted by SNAP2: | A: N (53%), C: N (66%), D: D (80%), E: D (71%), G: D (66%), H: D (66%), I: N (57%), K: D (80%), L: N (61%), M: N (72%), N: D (71%), P: D (80%), Q: D (66%), R: D (75%), S: D (53%), T: D (59%), V: N (53%), W: D (66%), Y: N (82%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, Y: N, |
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[hide] Identification of residues in the drug-binding dom... J Biol Chem. 1999 Dec 10;274(50):35388-92. Loo TW, Clarke DM
Identification of residues in the drug-binding domain of human P-glycoprotein. Analysis of transmembrane segment 11 by cysteine-scanning mutagenesis and inhibition by dibromobimane.
J Biol Chem. 1999 Dec 10;274(50):35388-92., 1999-12-10 [PMID:10585407]
Abstract [show]
The drug-binding domain of the human multidrug resistance P-glycoprotein (P-gp) probably consists of residues from multiple transmembrane (TM) segments. In this study, we tested whether the amino acids in TM11 participate in binding drug substrates. Each residue in TM11 was initially altered by site-directed mutagenesis and assayed for drug-stimulated ATPase activity in the presence of verapamil, vinblastine, or colchicine. Mutants G939V, F942A, T945A, Q946A, A947L, Y953A, A954L, and G955V had altered drug-stimulated ATPase activities. Direct evidence for binding of drug substrate was then determined by cysteine-scanning mutagenesis of the residues in TM11 and inhibition of drug-stimulated ATPase activity by dibromobimane, a thiol-reactive substrate. Dibromobimane inhibited the drug-stimulated ATPase activities of two mutants, F942C and T945C, by more than 75%. These results suggest that residues Phe(942) and Thr(945) in TM11, together with residues previously identified in TM6 (Leu(339) and Ala(342)) and TM12 (Leu(975), Val(982), and Ala(985)) (Loo, T. W., and Clarke, D. M. (1997) J. Biol. Chem. 272, 31945-31948) form part of the drug-binding domain of P-gp.
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No. Sentence Comment
77 There was moderate stimulation of verapamil-stimulated ATPase activities in mutants T945A (140%), G955V (143%), and F957A (126%).
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ABCB1 p.Phe957Ala 10585407:77:116
status: NEW84 Moderate decreases in activity (40-50%) were observed for mutants G939V, Q946A, A947L, Y953A, and F957A.
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ABCB1 p.Phe957Ala 10585407:84:98
status: NEW100 There were, however, significant decreases in the activity for mutants Q946A (18%), F942A (24%), and F957A (32%).
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ABCB1 p.Phe957Ala 10585407:100:101
status: NEW128 TABLE I Drug-stimulated ATPase activity Mutant Drug Verapamil Vinblastine Colchicine Vmax Km Vmax Km Vmax Km % of WTa M % of WT M % of WT mM WT 100 24 100 5.4 100 0.62 I937S 94 22 93 6.1 100 0.69 F938A 106 32 96 5.1 96 0.68 G939V 62 8 45 4.0 165 0.26 I940S 93 32 93 5.6 93 0.65 T941A 100 25 104 5.5 100 0.66 F942A 88 93 30 5.1 24 0.80 S943A 92 26 100 5.2 85 0.62 F944A 93 14 105 5.3 101 0.64 T945A 140 100 165 8.3 56 0.65 Q946A 101 165 57 8.5 18 0.64 A947L 105 156 60 13.0 51 1.87 M948A 103 23 101 5.9 103 0.62 M949A 82 40 96 5.5 61 0.60 Y950A 109 37 119 5.1 99 0.62 F951A 94 31 99 5.2 101 0.64 S952A 108 36 123 5.1 91 0.69 Y953A 205 110 59 8.5 131 0.67 A954L 108 44 13 NDb 8 ND G955V 143 10 104 3.5 220 0.47 C956A 97 24 95 5.3 145 0.63 F957A 126 21 47 4.8 32 1.0 a WT, wild type. b ND, not determined due to low activity.
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ABCB1 p.Phe957Ala 10585407:128:753
status: NEW[hide] Mutagenesis of transmembrane domain 11 of P-glycop... Biochemistry. 1996 Mar 19;35(11):3625-35. Hanna M, Brault M, Kwan T, Kast C, Gros P
Mutagenesis of transmembrane domain 11 of P-glycoprotein by alanine scanning.
Biochemistry. 1996 Mar 19;35(11):3625-35., 1996-03-19 [PMID:8639515]
Abstract [show]
The biochemical and genetic analyses of P-glycoprotein (P-gp) have indicated that the membrane-associated regions of P-gp play an important role in drug recognition and drug transport. Predicted transmembrane domain 11 (TM11) maps near a major drug binding site revealed by photoaffinity labeling, and mutations in this domain alter the substrate specificity of P-gp. To investigate further the role of TM11 in P-gp function in general, and substrate specificity in particular, each of the 21 residues of TM11 of the P-gp isoform encoded by the mouse mdr3 gene was independently mutated to alanine, or to glycine in the case of endogenous alanines. After transfection and overexpression in Chinese hamster ovary cells, pools of stable transfectants were analyzed for qualitative or quantitative deviations from the profile of resistance to vinblastine, adriamycin, colchicine, and actinomycin D displayed by the wild-type protein. While mutations at eight of the positions had no effect on P-gp function, 13 mutants showed a 2-10-fold reduction of activity against one of the four drugs tested. Although the phenotype of individual mutants was varied, replacements at most mutation-sensitive positions seemed to affect the drug resistance profiles rather than the overall activity of the mutant P-gp. When TM11 was projected in a alpha-helical configuration, the distribution of deleterious and neutral mutations was not random but segregated with a more hydrophobic (mutation-insensitive) face and a more hydrophilic (mutation-sensitive) face of a putative amphipathic helix. The alternate clustering pattern of deleterious vs neutral mutations in TM11 together with the altered drug resistance profile of deleterious mutants suggest that the more hydrophilic face of the TM11 helix may play an important structural or functional role in drug recognition and transport by P-gp. Finally, the conservation of the two residues most sensitive to mutations (Y949 and Y953) in TM11, and in the homologous TM5, of all mammalian P-gps and also in other ABC transporters, suggests that these residues and domains may play an important role in structural as well as mechanistic aspects common to this family of proteins.
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No. Sentence Comment
239 In previous work (Loo & Clarke, 1993b), the same mutation was made in the same residue at the equivalent position in P-gp encoded by the human MDR1 isoform (F957A).
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ABCB1 p.Phe957Ala 8639515:239:157
status: NEW