ABCB1 p.Val345Cys

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PMID: 17696319 [PubMed] Storm J et al: "Residue G346 in transmembrane segment six is involved in inter-domain communication in P-glycoprotein."
No. Sentence Comment
66 Table 1: Mutagenic Oligonucleotide Primers Used to Generate TM6 Mutationsa mutation primer sequence 5'-3' diagnostic restriction digest S344C TTAATTGGGGCcTTTtGTGTTGGACAG + Eco 0109 I V345C TTAATTGGGGCaTTcAGTtgTGGACAGGCAT + Bsm I G346C F:GGGGCTTTTAGTGTTtGcCAGGCgTCTCCAAGCATTG +Bsa H I R:CAATGCTTGGAGAcGCCTGgCaAACACTAAAAGCCCC Q347C GCTTTTAGTGTTGGAtgcGCATCTCCAAG + Fsp I A348C GTTGGACAGtgcagcCCAAGCATTG + Bsg I S349C GGACAGGCATgcCCAAGTATTGAAGCA + Sph I A354C CAAGCATTGAAtgcTTTGCAAATG + Bsm I G360C CAAATGCAAGAtGcGCAGCTTATG + Fsp I a Primer sequences contain an introduced cysteine residue (bold) and additional silent mutations (lower case), with respect to the coding sequence that generates, or removes, the indicated restriction site.
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ABCB1 p.Val345Cys 17696319:66:183
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79 Alternatively, mutant isoforms (S344C and V345C) in pFastBac-1 were transformed into DH10Bac E. coli.
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ABCB1 p.Val345Cys 17696319:79:42
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229 Table 2: Michaelis-Menten Parameters for ATPase Activity of P-gpa basal nicardipine vinblastine Vmax (µmol/min/mg) Km (mM) Vmax (µmol/min/mg) Km (mM) Vmax (µmol/min/mg) Km (mM) CYS- 0.48 ( 0.10 0.54 ( 0.05 1.37 ( 0.19 0.38 ( 0.03 0.98 ( 0.10 0.38 ( 0.02 S344C 0.30 ( 0.05 0.34 ( 0.05 1.71 ( 0.28 0.45 ( 0.07 0.84 ( 0.09 0.28 ( 0.03 V345C 0.43 ( 0.07 0.42 ( 0.06 1.69 ( 0.29 0.24 ( 0.01 0.82 ( 0.15 0.36 ( 0.04 G346C 0.06 ( 0.01* 0.21 ( 0.05* 0.15 ( 0.02* 0.24 ( 0.05 0.06 ( 0.02* 0.26 ( 0.09 Q347C 0.25 ( 0.03 0.21 ( 0.03* 0.47 ( 0.06* 0.13 ( 0.01* 0.39 ( 0.13 0.19 ( 0.02 A348C 0.79 ( 0.15 0.37 ( 0.03 2.90 ( 0.52* 0.40 ( 0.05 1.58 ( 0.30* 0.41 ( 0.06 S349C 0.38 ( 0.04 0.36 ( 0.06 1.00 ( 0.10 0.23 ( 0.03 0.45 ( 0.04 0.27 ( 0.03 A354C 0.47 ( 0.10 0.50 ( 0.10 2.21 ( 0.37* 0.59 ( 0.08* 1.29 ( 0.23 0.61 ( 0.15* G360C 0.35 ( 0.03 0.36 ( 0.02 1.88 ( 0.12 0.46 ( 0.08 1.00 ( 0.07 0.43 ( 0.02 a ATPase activity was plotted as a function of ATP concentration and the Vmax and Km parameters obtained by nonlinear regression of the Michaelis-Menten equation.
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ABCB1 p.Val345Cys 17696319:229:347
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231 Table 3: Potency and Degree of Drug Stimulation of ATP Hydrolysis by P-gpa nicardipine vinblastine EC50 (µM) fold-stimulation EC50 (µM) fold-stimulation CYS3.2 ( 0.3 3.4 ( 0.3 4.2 ( 0.7 2.4 ( 0.2 S344C 5.4 ( 0.3 5.9 ( 0.4* 12.2 ( 0.5* 2.9 ( 0.2 V345C 3.2 ( 0.1 3.9 ( 0.1 9.3 ( 1.1* 2.1 ( 0.1 G346C 5.5 ( 1.1 3.4 ( 0.3 ND 1.0 ( 0.1* Q347C 2.0 ( 0.6 2.0 ( 0.1* ND 1.3 ( 0.1* A348C 3.4 ( 0.4 3.9 ( 0.3 9.0 ( 2.1* 2.3 ( 0.2 S349C 2.3 ( 0.1 2.6 ( 0.1 ND 1.2 ( 0.1* A354C 3.5 ( 0.2 5.0 ( 0.3* 6.6 ( 0.5 2.5 ( 0.2 G360C 4.8 ( 0.5 5.5 ( 0.3* 5.9 ( 0.4 2.7 ( 0.1 a ATPase activity was plotted as a function of drug concentration and the potency and degree of stimulation obtained by nonlinear regression of the dose-response relationship equation.
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ABCB1 p.Val345Cys 17696319:231:255
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PMID: 18303860 [PubMed] Storm J et al: "Cytosolic region of TM6 in P-glycoprotein: topographical analysis and functional perturbation by site directed labeling."
No. Sentence Comment
52 Single cysteine containing mutant isoforms of ABCB1 (S344C, V345C, G346C, Q347C, S349C, A354C, and G360C) were constructed as previously described (44) using site directed mutagenesis with the Altered Sites II (Promega) or the QuickChange (Stratagene) systems.
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ABCB1 p.Val345Cys 18303860:52:60
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114 Figure 1a shows a representative example for the efficiency of labeling V345C with CM in the basal conformation.
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ABCB1 p.Val345Cys 18303860:114:72
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116 The data were quantified by densitometry and expressed graphically in Figure 1b. V345C was labeled fully (Lext ) 112%) with a half-life for the reaction of t½ ) 47 min.
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ABCB1 p.Val345Cys 18303860:116:81
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118 A complete graphical representation of similar labeling time-courses of two selected isoforms (V345C and A354C) is shown in Figure 2.
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ABCB1 p.Val345Cys 18303860:118:95
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120 In contrast, the V345C isoform was highly accessible to CM, with complete labeling (Lext ) 111 ( 19% P < 0.05) observed during the course of the reaction and partially accessible to the zwitterionic BM probe (Lext ) 48 ( 6%).
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ABCB1 p.Val345Cys 18303860:120:17
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121 Isoform V345C remained nonamenable to labeling with the hydrophilic FM when converted to the nucleotide bound or vanadate trapped conformation.
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ABCB1 p.Val345Cys 18303860:121:8
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122 Trapping V345C in these two conformations also failed to impact significantly on the extent of labeling observed under basal conditions for either BM or CM (Figure 2).
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ABCB1 p.Val345Cys 18303860:122:9
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135 (a) The V345C (upper gel) and G346C (lower gel) isoforms were reacted with CM and FM, respectively, for 10-300 min as described in Materials and Methods.
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ABCB1 p.Val345Cys 18303860:135:8
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139 Filled circles represent the labeling of V345C with CM, open circles represent the labeling of G346C with FM.
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ABCB1 p.Val345Cys 18303860:139:41
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141 The maximal extent of labeling (Lext) was ascertained for the (a) V345C and (b) A354C mutant isoforms of ABCB1 using the three maleimide containing probes, FM, BM and CM.
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ABCB1 p.Val345Cys 18303860:141:66
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163 Representative full dose-response data is shown for two isoforms (S344C and V345C) in Figure 3.
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ABCB1 p.Val345Cys 18303860:163:76
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166 A more dramatic effect was observed in this isoform following CM modification, namely, that vinblastine could no longer stimulate the basal ATPase Table 1: Summary of Relative Accessibilities of TM6 Residuesa ABCB1 isoform catalytic intermediate FM BM CM S344C basal - +++ +++ AMPPNP + +++ +++ vanadate + +++ +++ V345C basal - + +++ AMPPNP + ++ +++ vanadate + + +++ G346C basal - + ++ AMPPNP - ++ ++ vanadate + + ++ Q347C basal + + +++ AMPPNP + + ++ vanadate + + +++ S349C basal - + + AMPPNP + ++ + vanadate - ++ +++ A354C basal + +++ +++ AMPPNP ++ +++ +++ vanadate + + +++ G360C basal +++ +++ ++ AMPPNP +++ +++ ++ vanadate + ++ +++ a The accessibility of each introduced cysteine residue was determined using fluorescein-maleimide (FM), BODIPY-maleimide (BM) or coumarin-maleimide (CM).
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ABCB1 p.Val345Cys 18303860:166:313
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170 Table 2: Effects of Covalent Modification by CM on ATPase Activity of Mutant ABCB1 TM6 Isoformsa basal Vmax (nmol Pi min-1 mg-1) stimulated Vmax (nmol Pi min-1 mg-1) (-)CM (+) CM % change (-)CM (+) CM % change S344C 188 ( 62 192 ( 56 857 ( 216 317 ( 93* -63 V345C 563 ( 85 388 ( 41 -31 1173 ( 355 937 ( 292 -20 G346C 101 ( 18 102 ( 12 268 ( 47 186 ( 59 -30 Q347C 66 ( 6 41 ( 15 -37 161 ( 33 61 ( 4* -62 A354C 126 ( 10 229 ( 27* +81 535 ( 72 353 ( 18* -34 G360C 396 ( 82 508 ( 134 +28 1244 ( 252 810 ( 108 -34 a The ABCB1 isoforms containing mutations within TM6 were examined for ATPase activity prior to and following reaction with the hydrophobic maleimide probe CM.
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ABCB1 p.Val345Cys 18303860:170:258
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175 Table 3: Effects of Coumarin Labeling on the Potency of Drugs to Stimulate ATP Hydrolysis by Mutant ABCB1 TM6 Isoformsa EC50 nicardipine (µM) EC50 vinblastine (µM) (-) CM (+) CM (-) CM (+) CM S344C 3.0 ( 0.4 0.5 ( 0.1* 12.1 ( 0.5 na V345C 2.3 ( 0.4 3.9 ( 0.6 4.9 ( 1.4 8.5 ( 1.9 G346C 4.8 ( 1.8 7.1 ( 1.7 na na Q347C 2.7 ( 0.4 1.9 ( 0.8 na na A354C 2.4 ( 0.2 1.6 ( 0.2 2.5 ( 0.2 na G360C 2.7 ( 0.4 5.1 ( 0.2* 5.7 ( 0.1 8.6 ( 1.2 a The potency of nicardipine and vinblastine to stimulate ATP hydrolysis was examined for a wide range of drug concentrations (10-9-10-4 M).
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ABCB1 p.Val345Cys 18303860:175:243
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181 Covalent modification also impacted the ATPase activity of isoform V345C, albeit in a markedly distinct fashion to that observed with S344C (Table 2 and Figure 3c and d).
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ABCB1 p.Val345Cys 18303860:181:67
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182 The basal and nicardipine stimulated Vmax values for ATP hydrolysis by CM modified V345C were indistinguishable from that observed with untreated protein (Table 2).
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ABCB1 p.Val345Cys 18303860:182:83
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200 ATPase activity was obtained for the S344C (a and b) and V345C isoforms (c and d) of ABCB1 prior to (empty symbols) or following the reaction with CM (filled symbols).
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ABCB1 p.Val345Cys 18303860:200:57
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213 In addition, an alteration in the potency of the stimulation, or abrogation of ATPase activity, was observed for a number of residues (S344C, V345C, S349C, A354C, and G360C).
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ABCB1 p.Val345Cys 18303860:213:142
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237 The region including V345C and S349C was relatively intransigent to covalent modification with either FM or BM.
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ABCB1 p.Val345Cys 18303860:237:21
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249 In silico mutation of the -branched valine residue to a slightly smaller cysteine residue, while less favorable in terms of residue packing, did not have a significant impact on the interhelical interactions of the V345C/L225/I306 triad.
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ABCB1 p.Val345Cys 18303860:249:215
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250 The modeled side chain of V345C faces away from the pore in the basal state model, rendering it inaccessible to the hydrophilic FM probe and only partially accessible to the zwitterionic BM probe, in accordance with the data presented here (Figure 4a and Table 1).
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ABCB1 p.Val345Cys 18303860:250:26
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251 Analysis of the AMP-PNP state model (which exhibits a "nucleotide sandwich dimer") suggests that a set of coordinated rotational and tilt angle changes in TM4, 5, and 6 around the V345C/L225/I306 triad occurs without altering the exposure of residue 345 itself (Figure 4b).
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ABCB1 p.Val345Cys 18303860:251:180
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261 On the basis of the observations in the present investigation and from previous studies (42-44), it appears that TM6 FIGURE 4: Molecular modeling insight into the V345C and A354C mutations in ABCB1.
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ABCB1 p.Val345Cys 18303860:261:163
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263 (a) In the AMP-PNP bound state, the V345C (spacefill, CPK coloring) is inaccessible to the translocation pore.
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ABCB1 p.Val345Cys 18303860:263:36
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265 The closest point of contact between the helices is V345C, which interacts hydrophobically with Leu225 (orange) and Ile306 (green).
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ABCB1 p.Val345Cys 18303860:265:52
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266 (b) The modeled basal state shows only minor reorganizations of the V345C-L225-I306 triad, consistent with the experimental findings.
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ABCB1 p.Val345Cys 18303860:266:68
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268 (d) In the basal state, conformational changes disrupt the TM3-TM6 coiled-coil motif and break the D188-V345C hydrogen bond.
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ABCB1 p.Val345Cys 18303860:268:104
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