ABCMdb

ABCC1 p.Arg1197Glu

Predicted by SNAP2:	A: D (85%), C: D (75%), D: D (95%), E: D (91%), F: D (91%), G: D (85%), H: D (80%), I: D (91%), K: D (91%), L: D (91%), M: D (91%), N: D (85%), P: D (95%), Q: D (91%), S: D (80%), T: D (85%), V: D (91%), W: D (95%), 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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[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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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

[hide] Mutational analysis of polar amino acid residues w... Drug Metab Dispos. 2006 Apr;34(4):539-46. Epub 2006 Jan 13. Zhang DW, Nunoya K, Vasa M, Gu HM, Cole SP, Deeley RG
Mutational analysis of polar amino acid residues within predicted transmembrane helices 10 and 16 of multidrug resistance protein 1 (ABCC1): effect on substrate specificity.
Drug Metab Dispos. 2006 Apr;34(4):539-46. Epub 2006 Jan 13., [PMID:16415113]

Abstract [show]
Human multidrug resistance protein 1 (MRP1) has a total of 17 transmembrane (TM) helices arranged in three membrane-spanning domains, MSD0, MSD1, and MSD2, with a 5 + 6 + 6 TM configuration. Photolabeling studies indicate that TMs 10 and 11 in MSD1 and 16 and 17 in MSD2 contribute to the substrate binding pocket of the protein. Previous mutational analyses of charged and polar amino acids in predicted TM helices 11, 16, and 17 support this suggestion. Mutation of Trp(553) in TM10 also affects substrate specificity. To extend this analysis, we mutated six additional polar residues within TM10 and the remaining uncharacterized polar residue in TM16, Asn(1208). Although mutation of Asn(1208) was without effect, two of six mutations in TM10, T550A and T556A, modulated the drug resistance profile of MRP1 without affecting transport of leukotriene C4, 17beta-estradiol 17-(beta-d-glucuronide) (E(2)17betaG), and glutathione. Mutation T550A increased vincristine resistance but decreased doxorubicin resistance, whereas mutation T556A decreased resistance to etoposide (VP-16) and doxorubicin. Although conservative mutation of Tyr(568) in TM10 to Phe or Trp had no apparent effect on substrate specificity, substitution with Ala decreased the affinity of MRP1 for E(2)17betaG without affecting drug resistance or the transport of other substrates tested. These analyses confirm that several amino acids in TM10 selectively alter the substrate specificity of MRP1, suggesting that they interact directly with certain substrates. The location of these and other functionally important residues in TM helices 11, 16, and 17 is discussed in the context of an energy-minimized model of the membrane-spanning domains of MRP1.

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164 Conversely, replacement of Glu1204 with Leu or Arg1197 with Glu or Lys affected either substrate specificity or overall transport activity of MRP1 (Situ et al., 2004). Login to comment

[hide] Bindings of hMRP1 transmembrane peptides with dode... Biochim Biophys Acta. 2014 Jan;1838(1 Pt B):493-509. doi: 10.1016/j.bbamem.2013.10.012. Epub 2013 Oct 21. Abel S, Lorieau A, de Foresta B, Dupradeau FY, Marchi M
Bindings of hMRP1 transmembrane peptides with dodecylphosphocholine and dodecyl-beta-d-maltoside micelles: a molecular dynamics simulation study.
Biochim Biophys Acta. 2014 Jan;1838(1 Pt B):493-509. doi: 10.1016/j.bbamem.2013.10.012. Epub 2013 Oct 21., [PMID:24157718]

Abstract [show]
In this paper, we describe molecular dynamics simulation results of the interactions between four peptides (mTM10, mTM16, TM17 and KTM17) with micelles of dodecylphosphocholine (DPC) and dodecyl-beta-d-maltoside (DDM). These peptides represent three transmembrane fragments (TM10, 16 and 17) from the MSD1 and MSD2 membrane-spanning domains of an ABC membrane protein (hMRP1), which play roles in the protein functions. The peptide-micelle complex structures, including the tryptophan accessibility and dynamics were compared to circular dichroism and fluorescence studies obtained in water, trifluoroethanol and with micelles. Our work provides additional results not directly accessible by experiments that give further support to the fact that these peptides adopt an interfacial conformation within the micelles. We also show that the peptides are more buried in DDM than in DPC, and consequently, that they have a larger surface exposure to water in DPC than in DDM. As noted previously by simulations and experiments we have also observed formation of cation-pi bonds between the phosphocholine DPC headgroup and Trp peptide residue. Concerning the peptide secondary structures (SS), we find that in TFE their initial helical conformations are maintained during the simulation, whereas in water their initial SS are lost after few nanoseconds of simulation. An intermediate situation is observed with micelles, where the peptides remain partially folded and more structured in DDM than in DPC. Finally, our results show no sign of beta-strand structure formation as invoked by far-UV CD experiments even when three identical peptides are simulated either in water or with micelles.

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39 Indeed, mutations of the ionizable residues (for example, R1197E, R1202(G,L) and E1204L) have impact on protein expression, substrate binding and/or transport [37], whereas the mutation of a single tryptophan W1246A in TM17 affects the estradiol 17-b2;-D-glucuronide transport [36]. Login to comment