ABCC1 p.Ser1334His

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PMID: 18088596 [PubMed] Yang R et al: "The hydroxyl group of S685 in Walker A motif and the carboxyl group of D792 in Walker B motif of NBD1 play a crucial role for multidrug resistance protein folding and function."
No. Sentence Comment
254 In order to rule out the possibility that the double mutant D1454L/E1455L might rescue the misfolding caused by D14 54L mutation, we have made single mutants including D1454L, D1454N, S1334A, S1334T, S1334C, S1334H, S1334D and S1334N.
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ABCC1 p.Ser1334His 18088596:254:208
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PMID: 18636743 [PubMed] Yang R et al: "Interaction between the bound Mg.ATP and the Walker A serine residue in NBD2 of multidrug resistance-associated protein MRP1 plays a crucial role for the ATP-dependent leukotriene C4 transport."
No. Sentence Comment
3 In contrast to the NBD1 mutations, none of the mutations in NBD2, including S1334A, S1334C, S1334D, S1334H, S1334N, and S1334T, caused misfolding of the protein.
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ABCC1 p.Ser1334His 18636743:3:100
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4 However, elimination of the hydroxyl group at S1334 in mutations including S1334A, S1334C, S1334D, S1334H, and S1334N drastically reduced the ATP binding and the ATP-enhanced ADP trapping at the mutated NBD2.
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ABCC1 p.Ser1334His 18636743:4:99
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15 In order to test this hypothesis, we have substituted the Walker A S1334 with an A (S1334A), a C (S1334C), a D (S1334D), an H (S1334H), an N (S1334N), or a T (S1334T).
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ABCC1 p.Ser1334His 18636743:15:127
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36 The forward and reverse primers used to introduce these mutations are as follows: S1334A/forward, 5'-CG GGA GCT GGG AAG GCG TCC CTG ACC CTG GGC-3'; S1334A/ reverse, 5'-GCC CAG GGT CAG GGA CGC CTT CCC AGC TCC CG-3'; S1334C/forward, 5'-CG GGA GCT GGG AAG TGC TCC CTG ACC CTG GGC-3'; S1334C/reverse, 5'-GCC CAG GGT CAG GGA GCA CTT CCC AGC TCC CG-3'; S1334D/forward, 5'-CG GGA GCT GGG AAG GAC TCC CTG ACC CTG GGC-3'; S1334D/reverse, 5'-GCC CAG GGT CAG GGA GTC CTT CCC AGC TCC CG-3'; S1334H/forward, 5'-CG GGA GCT GGG AAG CAC TCC CTG ACC CTG GGC-3'; S1334H/reverse, 5'-GCC CAG GGT CAG GGA GTG CTT CCC AGC TCC CG-3'; S1334N/forward, 5'-CG GGA GCT GGG AAG AAC TCC CTG ACC CTG GGC-3'; S1334N/reverse, 5'-GCC CAG GGT CAG GGA GTT CTT CCC AGC TCC CG-3'; S1334T/forward, 5'-CG GGA GCT GGG AAG ACG TCC CTG ACC CTG GGC-3'; S1334T/reverse, 5'-GCC CAG GGT CAG GGA CGT CTT CCC AGC TCC CG-3'.
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ABCC1 p.Ser1334His 18636743:36:479
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ABCC1 p.Ser1334His 18636743:36:545
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82 The results in Figure 1A showed that the 190 kDa wild-type MRP1 protein is resistant to endoglycosidase H digestion whereas the minor band is not, indicating that the majority of wild-type MRP1 protein is complex-glycosylated in vivo. All of the mutants, including S1334A, S1334C, S1334D, S1334H, S1334N, and S1334T, have a major band resistant to the endoglycosidase H digestion but sensitive to the PNGase F digestion (Figure 1B), indicating that all of these mutants mainly form complex-glycosylated mature proteins at 37 °C in vivo.
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ABCC1 p.Ser1334His 18636743:82:289
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88 As shown in Figure 2B, S1334A-, S1334C-, S1334D-, S1334H-, or S1334N-mutated MRP1 almost completely abolished the ATP-dependent LTC4 transport, whereas S1334T mutation, which retained the hydroxyl group at this position, exerted ~175% of wild-type MRP1 transport activity, suggesting that the hydroxyl group at this position plays a crucial role for the ATP binding/hydrolysis and ATP-dependent solute transport by MRP1.
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ABCC1 p.Ser1334His 18636743:88:50
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112 The intensities of the MRP1 bands were determined by a scanning densitometer. The mean ratios (n ) 2, including the results derived from 400 and 800 ng of protein), considering the amount of wild-type MRP1 as 1, of the mutant proteins are as follows: S1334A, 1.46 ( 0.06; S1334C, 0.84 ( 0.14; S1334D, 1.07 ( 0.69; S1334H, 1.17 ( 0.16; S1334N, 0.97 ( 0.08; S1334T, 1.30 ( 0.11.
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ABCC1 p.Ser1334His 18636743:112:314
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120 labeling intensity of MRP1 mutants, including S1334A, S1334C, S1334D, S1334H, and S1334N, with [R-32 P]-8-N3ATP is weaker than that of wild type or S1334T (Figure 4), indicating that these mutants without the hydroxyl group at this position affect ATP binding, hydrolysis, and vanadate-dependent [R-32 P]-8-N3ADP trapping.
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ABCC1 p.Ser1334His 18636743:120:70
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121 Comparison of labeling intensities with [R-32 P]-8-N3ATP and [γ-32 P]-8-N3ATP further supports this conclusion: (1) The labeling intensity of MRP1 mutants, including S1334A, S1334C, S1334D, S1334H, and S1334N, with [R-32 P]-8-N3ATP is either similar to or weaker than that of [γ-32 P]-8-N3ATP labeling (Figure 4), indicating that the bound ATP in these mutants is not efficiently hydrolyzed.
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ABCC1 p.Ser1334His 18636743:121:196
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122 (2) The intensity of [γ-32 P]-8-N3ATP labeling on the mutants, including S1334A, S1334C, S1334D, S1334H, and S1334N, is either stronger than wild type or similar to wild type (Figure 4), implying that most of those [γ-32 P]-8-N3ATP labeling might occur at the unmutated NBD1 (8).
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ABCC1 p.Ser1334His 18636743:122:103
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155 As shown in Figure 6, 2.5 or 10 µM ATP significantly enhanced the vanadate-dependent [R-32 P]-8-N3ADP trapping in wild type MRP1 (Figure 6A) or in S1334T (Figure 6G), whereas there is no enhancement effect in S1334A (Figure 6B), S1334C (Figure 6C), S1334D (Figure 6D), S1334H (Figure 6E), or S1334N (Figure 6F), suggesting that these mutations significantly impaired the nucleotide binding at the mutated NBD2.
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ABCC1 p.Ser1334His 18636743:155:274
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161 In contrast, the labeling on S1334A, S1334C, S1334D, S1334H, or S1334N is only partially diminished, implying that ATP binding or vanadate-dependent ATP hydrolysis product ADP trapping at the mutated NBD2 is impaired.
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ABCC1 p.Ser1334His 18636743:161:53
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163 In contrast, mutation of the corresponding residue in NBD2 of MRP1, such as S1334A, S1334C, S1334D, S1334H, or S1334N, has no effect on the protein folding and processing (Figure 1), implying that the stereo structure surrounding the hydroxyl group of S1334 in NBD2 might be different from that of NBD1.
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ABCC1 p.Ser1334His 18636743:163:100
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175 group (S1334C) exerted slightly higher transport activity than that of S1334A, S1334D, S1334H, or S1334N (Figure 2B), implying that the sulfhydryl group in S1334C might weakly bind to the magnesium cofactor and the -phosphate of the bound ATP.
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ABCC1 p.Ser1334His 18636743:175:87
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178 The labeling intensities of [R-32 P]-8-N3ATP in wild type or S1334T are stronger than that of [γ-32 P]-8-N3ATP (Figure 4), whereas the labeling intensities of [R-32 P]-8-N3ATP in S1334A, S1334C, S1334D, S1334H, or S1334N are slightly weaker than that of [γ-32 P]-8-N3ATP (Figure 4), suggesting that even though there might be a trace amount of ATP binding at the mutated NBD2, the bound nucleotide might not be efficiently hydrolyzed.
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ABCC1 p.Ser1334His 18636743:178:209
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180 All of the S1334 mutants, including S1334A (Figure 6B), S1334C (Figure 6C), S1334D (Figure 6D), S1334H (Figure 6E), and S1334N (Figure 6F), lost the ATP-enhanced vanadate-dependent ADP trapping (16, 17) at the mutated NBD2, suggesting that these mutations significantly decreased the affinity for nucleotide at the mutated NBD2.
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ABCC1 p.Ser1334His 18636743:180:96
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182 The reduced nucleotide binding at the mutated NBD2, such as S1334A, S1334C, S1334D, S1334H, and S1334N, significantly decreased the ability to inhibit the LTC4 binding (Figure 7), similar to the mutations of K684E, G771A, or K1333E (19).
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ABCC1 p.Ser1334His 18636743:182:84
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