ABCMdb

ABCC1 p.Arg1249Asp

Predicted by SNAP2:	A: D (85%), C: D (85%), D: D (95%), E: D (91%), F: D (85%), G: D (91%), H: D (80%), I: D (85%), K: D (80%), L: D (91%), M: D (80%), N: D (91%), P: D (91%), Q: D (66%), S: D (80%), T: D (91%), V: D (85%), W: D (91%), Y: D (91%),
Predicted by PROVEAN:	A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, S: D, T: D, V: D, W: D, Y: D,

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Publications
[hide] Mutational analysis of ionizable residues proximal... J Biol Chem. 2004 Sep 10;279(37):38871-80. Epub 2004 Jun 18. Situ D, Haimeur A, Conseil G, Sparks KE, Zhang D, Deeley RG, Cole SP
Mutational analysis of ionizable residues proximal to the cytoplasmic interface of membrane spanning domain 3 of the multidrug resistance protein, MRP1 (ABCC1): glutamate 1204 is important for both the expression and catalytic activity of the transporter.
J Biol Chem. 2004 Sep 10;279(37):38871-80. Epub 2004 Jun 18., 2004-09-10 [PMID:15208328]

Abstract [show]
The multidrug resistance protein MRP1 is an ATP-dependent transporter of organic anions and chemotherapeutic agents. A significant number of ionizable amino acids are found in or proximal to the 17 transmembrane (TM) helices of MRP1, and we have investigated 6 of these at the cytoplasmic interface of TM13-17 for their role in MRP1 expression and transport activity. Opposite charge substitutions of TM13 Arg(1046) and TM15 Arg(1131) did not alter MRP1 expression nor did they substantially affect activity. In contrast, opposite charge substitutions of TM16 Arg(1202) and Glu(1204) reduced protein expression by >80%; however, MRP1 expression was not affected when Arg(1202) and Glu(1204) were replaced with neutral or same-charge residues. In addition, organic anion transport levels of the R1202L, R1202G, and R1202K mutants were comparable with wild-type MRP1. In contrast, organic anion transport by E1204L was substantially reduced, whereas transport by E1204D was comparable with wild-type MRP1, with the notable exception of GSH. Opposite charge substitutions of TM16 Arg(1197) and TM17 Arg(1249) did not affect MRP1 expression but substantially reduced transport. Mutants containing like-charge substitutions of Arg(1197) or Arg(1249) were also transport-inactive and no longer bound leukotriene C(4). In contrast, substrate binding by the transport-compromised E1204L mutant remained intact. Furthermore, vanadate-induced trapping of azido-ADP by E1204L was dramatically increased, indicating that this mutation may cause a partial uncoupling of the catalytic and transport activities of MRP1. Thus, Glu(1204) serves a dual role in membrane expression of MRP1 and a step in its catalytic cycle subsequent to initial substrate binding.

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No. Sentence Comment
107 The relative mean expression levels of the R1197E and R1249D mutants from 2 to 3 independent transfections were comparable with wild-type MRP1 (110 and 70%, respectively). Login to comment
113 Membrane vesicles prepared from HEK293T cells transfected with empty vector [pcDNA3.1] and vector containing the wild-type (WT-MRP1) and mutant (R1197E, R1202D, E1204K, and R1249D) cDNAs were immunoblotted with mAb QCRL-1. Shown is a representative immunoblot of membrane vesicles (1 and 2 ␮g of protein) from a single transfection. Login to comment
118 Immunoblots of membrane vesicle proteins prepared from cells expressing the Glu1204 mutants E1204L and E1204D were carried out as described in A. TABLE I Summary of organic anion transport activity of MRP1 mutants with substitutions of ionizable amino acids in and proximal to TM13 to TM17 of MSD3 Mutation % Wild-type MRP1 transport activitya E217betaG LTC4 E1SO4 MTX GSH TM13 R1046D 115 70 80 120 NDb TM14 D1084R Ͻ10 Ͻ10 15 25 Ͻ10 D1084E 80 20 65 90 20 TM15 R1131E 70 50 80 60 ND TM16 R1197E Ͻ10 Ͻ10 Ͻ15 Ͻ10 ND R1197K 20 Ͻ25 Ͻ20 Ͻ10 ND R1202G 115 115 75 70 ND R1202L 115 120 50 110 ND E1204L Ͻ10 50 10 110 Ͻ25 E1204D 100 115 100 115 Ͻ25 TM17 R1249D Ͻ10 Ͻ15 Ͻ10 Ͻ10 ND R1249K Ͻ10 10 Ͻ15 Ͻ10 ND a The values shown are means of duplicate or triplicate determinations and are derived from Fig. 2, 4, and 5 (see figure legends for details). Login to comment
141 Transport Activities of TM16/17 Arg1197 and Arg1249 Mutants-Unlike the R1202D and E1204K mutants, oppositely charged substitutions of Arg1197 (R1197E) and Arg1249 (R1249D) did not adversely affect expression of MRP1 (Fig. 3A). Login to comment
143 Thus, levels of E217betaG uptake by both mutants were Ͻ10% of wild-type MRP1 levels (Fig. 5A), whereas LTC4 uptake by the R1197E and R1249D mutants was Ͻ15% of wild-type MRP1 (Fig. 5B). Login to comment
144 Uptake of E1SO4 by the R1197E mutant was Ͻ15% of wild-type MRP1, whereas uptake of this sulfated estrogen by the R1249D mutant was reduced by Ͼ90% (Fig. 5C). Login to comment
145 Finally, the R1197E and R1249D mutants showed MTX transport activity that was not significantly different from the empty vector control (Fig. 5D). Login to comment
177 Levels of 3 H-labeled organic anion uptake by membrane vesicles were prepared from cells expressing wild-type MRP1 (black bars), mutants R1197E, R1197K, R1249D, and R1249K (gray bars), and empty pcDNA3.1 vector control vesicles (open bars). Login to comment
229 Unlike Arg1202 and Glu1204 , substitution of Arg1197 and Arg1249 with oppositely charged residues did not adversely affect expression of MRP1 but instead caused a substantial reduction in transport activity. Our observations with respect to the R1249D mutant are consistent with those of Ren et al. (19) who reported that Ala substitution of Arg1249 impaired MRP1-mediated LTC4 transport and reduced vincristine resistance. Login to comment