ABCC7 p.Pro355Ala

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PMID: 24876383 [PubMed] Wei S et al: "Conserved allosteric hot spots in the transmembrane domains of cystic fibrosis transmembrane conductance regulator (CFTR) channels and multidrug resistance protein (MRP) pumps."
No. Sentence Comment
136 C-E, mean single channel open probabilities afe; S.E. (error bars) for WT (n afd; 6 patches) and P355A-CFTR channels (n afd; 7) under the indicated conditions.
X
ABCC7 p.Pro355Ala 24876383:136:103
status: NEW
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144 The P355A Mutation Rescues Channels That Are Normally ATP-unresponsive-We next determined whether a Pro-355 GOF mutation could promote the activities of channels that normally cannot be stimulated by ATP, namely a truncation mutant lacking NBD2 (èc;1198-CFTR) and an NBD1 signature sequence mutant (G551D-CFTR).
X
ABCC7 p.Pro355Ala 24876383:144:4
status: NEW
X
ABCC7 p.Pro355Ala 24876383:144:23
status: NEW
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145 When combined with the P355A substitution, these constructs also expressed sufficiently well for patch clamp analysis, although, like the single mutants, their expression was lower than wild type CFTR (see immunoblot in Fig. 4G).
X
ABCC7 p.Pro355Ala 24876383:145:23
status: NEW
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148 Fig. 4, B-D, shows that introducing the P355A mutation into the èc;1198-CFTR background created channels with FIGURE 3.
X
ABCC7 p.Pro355Ala 24876383:148:40
status: NEW
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158 Mean percentages of ATP-free currents afe; S.E. (error bars) were as follows: WT, 0.7 afe; 0.2% (n afd; 5); P355A, 5.0 afe; 1.4% (n afd; 10); P355S, 7.3 afe; 2.0% (n afd; 7); and P355F, 5.4 afe; 1.5% (n afd; 5).
X
ABCC7 p.Pro355Ala 24876383:158:117
status: NEW
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160 C, macroscopic current record showing substantial activation of P355A-CFTR by 2 mM AMP-PNP when added following ATP removal.
X
ABCC7 p.Pro355Ala 24876383:160:64
status: NEW
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165 TABLE 1 Single channel data for multiple Pro-355 CFTR mutants in the absence of ATP and following AMP-PNP activation Conditions were identical to those described in the legend to Fig. 2. n afd; 6 (WT), 7 (P355A), 8 (P355F), and 5 (P355S) patches, respectively.
X
ABCC7 p.Pro355Ala 24876383:165:3
status: NEW
X
ABCC7 p.Pro355Ala 24876383:165:208
status: NEW
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166 WT P355A P355F P355S Mean Po With ATP 0.3074afe;.00514 0.4078 afe; 0.0601 0.4867 afe; 0.0429 0.5212 afe; 0.1048 Without ATP 0.0009 afe; 0.0004 0.0217 afe; 0.0065a 0.0413 afe; 0.0145a 0.0365 afe; 0.0131a With AMP-PNP 0.0127 afe; 0.0114 0.1942 afe; 0.0619a 0.1112 afe; 0.0342a 0.1549 afe; 0.0651a Mean open frequency (sd1a;1 ) With ATP 0.222 afe; 0.021 0.270 afe; 0.028 0.384 afe; 0.049 0.334 afe; 0.059 Without ATP 0.004 afe; 0.001 0.020 afe; 0.002a 0.046 afe; 0.010a 0.028 afe; 0.006a With AMP-PNP 0.013 afe; 0.006 0.131 afe; 0.053a 0.104 afe; 0.035a 0.118 afe; 0.045a a p b0d; 0.05 compared with WT.
X
ABCC7 p.Pro355Ala 24876383:166:3
status: NEW
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168 The P355A mutation also partially rescued the activity of G551D-CFTR, a severely defective gating mutant that is common in the CF patient population (Fig. 4, E and F).
X
ABCC7 p.Pro355Ala 24876383:168:4
status: NEW
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172 Additive GOF Effects of the P355A Mutation and a Mutation in the Outer TM Collar-We previously reported another class of GOF mutation that locates to the base of TM9 (Lys-978) in the putative outer TM collar that surrounds the principal pore-lining TMs (see Fig. 1A for predicted location of Lys-978 in CFTR structural models) (16).
X
ABCC7 p.Pro355Ala 24876383:172:28
status: NEW
X
ABCC7 p.Pro355Ala 24876383:172:129
status: NEW
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173 We reasoned that, given the different locations of the two classes of GOF mutations (pore versus outer collar), a double mutant (P355A/K978C) may exhibit an additive GOF effect.
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ABCC7 p.Pro355Ala 24876383:173:129
status: NEW
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175 GOF mutations in the pore-lining TM6 (P355A) and in the outer TM collar (K978C) have additive effects on CFTR channel activity.
X
ABCC7 p.Pro355Ala 24876383:175:38
status: NEW
X
ABCC7 p.Pro355Ala 24876383:175:129
status: NEW
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176 A, macroscopic current record showing the relatively large ATP-independent current and robust activation by 2 mM AMP-PNP for the P355A/K978C double mutant.Fortherampprotocol,conditionswerethesameasforFigs.2-4.BandC,meanfractionalATP-freecurrentandrelativeAMP-PNPactivationnormalized to the control current at 1.5 mM ATP for the indicated single and double mutants.
X
ABCC7 p.Pro355Ala 24876383:176:129
status: NEW
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180 The P355A substitution increases the channel activities of CFTR mutant constructs that cannot be activated by ATP.
X
ABCC7 p.Pro355Ala 24876383:180:4
status: NEW
X
ABCC7 p.Pro355Ala 24876383:180:79
status: NEW
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181 A and B, macroscopic currents mediated by èc;1198-CFTR without or with the P355A substitution.
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ABCC7 p.Pro355Ala 24876383:181:79
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184 Note the much larger control current for P355A/èc;1198-CFTR that was insensitive to the addition of the ATP scavenger (i.e. was ATP-independent).
X
ABCC7 p.Pro355Ala 24876383:184:41
status: NEW
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ABCC7 p.Pro355Ala 24876383:184:166
status: NEW
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185 C and E, scatter plots showing the generally larger macroscopic control currents at afa;80 mV for èc;1198-CFTR channels and G551D-CFTR channels containing the P355A substitution.
X
ABCC7 p.Pro355Ala 24876383:185:166
status: NEW
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188 The much lower relative activation of the P355A mutants is due to their higher control or baseline currents.
X
ABCC7 p.Pro355Ala 24876383:188:42
status: NEW
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191 G, immunoblot of P355A-èc;1198, P355A-G551D, and P355A/K978C double mutants transiently expressed in HEK-293T cells.
X
ABCC7 p.Pro355Ala 24876383:191:17
status: NEW
X
ABCC7 p.Pro355Ala 24876383:191:36
status: NEW
X
ABCC7 p.Pro355Ala 24876383:191:53
status: NEW
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197 The double mutant (P355A/K978C-CFTR) exhibited relatively high ATP-independent currents in excised macropatches (b03;35% of the ATP control current) and strong activation by AMP-PNP that approached that by ATP (b03;90% of the ATP control current).
X
ABCC7 p.Pro355Ala 24876383:197:19
status: NEW
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199 It is also evident from the single mutant data in Fig. 5, B and C, that the K978C mutation had a somewhat stronger GOF effect than the P355A mutation.
X
ABCC7 p.Pro355Ala 24876383:199:135
status: NEW
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201 The P355A TM6 Mutation Increases the ATP Sensitivity of Channel Gating-A GOF or isomerization mutation is predicted by a classical allosteric activation scheme to enhance ligand occupancy at normally subsaturating concentrations.
X
ABCC7 p.Pro355Ala 24876383:201:4
status: NEW
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203 The data in Fig. 6 confirm this prediction both for the single P355A mutant (Fig. 6A) and for a double mutant in which the Pro-355 mutation was introduced into an NBD2 mutant that has a markedly reduced ATP affinity (Y1219G-CFTR; Fig. 6B).
X
ABCC7 p.Pro355Ala 24876383:203:63
status: NEW
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206 As reported previously by the latter authors, the Y1219G mutant of CFTR exhibited a marked rightward shift in the ATP dose-response curve relative to wild type CFTR with an EC50 of 1.5-2 mM.
X
ABCC7 p.Pro355Ala 24876383:206:16
status: NEW
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207 Introducing the P355A mutation increased the apparent ATP affinity of the Y1219G mutant (leftward shift in Fig. 6B).
X
ABCC7 p.Pro355Ala 24876383:207:16
status: NEW
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215 A, ATP titration curves for WT and P355A-CFTR channels averaged over five and four macropatch experiments, respectively.
X
ABCC7 p.Pro355Ala 24876383:215:35
status: NEW
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217 Symbols, means afe; S.E. (error bars); curves, best fits to the Hill equation (WT, K afd; 123.2 òe;M and Hill coefficient afd; 0.83; P355A, K afd; 47.7 òe;M and Hill coefficient afd; 1.01).
X
ABCC7 p.Pro355Ala 24876383:217:146
status: NEW
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220 Curves, best fits to Hill equation with K values of 1522, 683, and 180 òe;M and Hill coefficients of 1.69, 1.93, and 1.72 for Y1219G (n afd; 6 patches), P355A/Y1219G (n afd; 5), and K978C/Y1219G (n afd; 4), respectively.
X
ABCC7 p.Pro355Ala 24876383:220:160
status: NEW
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284 GOF effects of the P355A and K978C mutations were additive, implying that they influence channel gating by different mechanisms.
X
ABCC7 p.Pro355Ala 24876383:284:19
status: NEW
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308 Both the P355A and K978C GOF mutations increased the ATP sensitivity of the Y1219G mutant with the K978C substitution restoring the ATP sensitivity of channel gating to nearly wild type levels.
X
ABCC7 p.Pro355Ala 24876383:308:9
status: NEW
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135 C-E, mean single channel open probabilities afe; S.E. (error bars) for WT (n afd; 6 patches) and P355A-CFTR channels (n afd; 7) under the indicated conditions.
X
ABCC7 p.Pro355Ala 24876383:135:103
status: NEW
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143 The P355A Mutation Rescues Channels That Are Normally ATP-unresponsive-We next determined whether a Pro-355 GOF mutation could promote the activities of channels that normally cannot be stimulated by ATP, namely a truncation mutant lacking NBD2 (èc;1198-CFTR) and an NBD1 signature sequence mutant (G551D-CFTR).
X
ABCC7 p.Pro355Ala 24876383:143:4
status: NEW
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147 Fig. 4, B-D, shows that introducing the P355A mutation into the èc;1198-CFTR background created channels with FIGURE 3.
X
ABCC7 p.Pro355Ala 24876383:147:40
status: NEW
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157 Mean percentages of ATP-free currents afe; S.E. (error bars) were as follows: WT, 0.7 afe; 0.2% (n afd; 5); P355A, 5.0 afe; 1.4% (n afd; 10); P355S, 7.3 afe; 2.0% (n afd; 7); and P355F, 5.4 afe; 1.5% (n afd; 5).
X
ABCC7 p.Pro355Ala 24876383:157:117
status: NEW
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159 C, macroscopic current record showing substantial activation of P355A-CFTR by 2 mM AMP-PNP when added following ATP removal.
X
ABCC7 p.Pro355Ala 24876383:159:64
status: NEW
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164 TABLE 1 Single channel data for multiple Pro-355 CFTR mutants in the absence of ATP and following AMP-PNP activation Conditions were identical to those described in the legend to Fig. 2. n afd; 6 (WT), 7 (P355A), 8 (P355F), and 5 (P355S) patches, respectively.
X
ABCC7 p.Pro355Ala 24876383:164:208
status: NEW
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167 The P355A mutation also partially rescued the activity of G551D-CFTR, a severely defective gating mutant that is common in the CF patient population (Fig. 4, E and F).
X
ABCC7 p.Pro355Ala 24876383:167:4
status: NEW
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171 Additive GOF Effects of the P355A Mutation and a Mutation in the Outer TM Collar-We previously reported another class of GOF mutation that locates to the base of TM9 (Lys-978) in the putative outer TM collar that surrounds the principal pore-lining TMs (see Fig. 1A for predicted location of Lys-978 in CFTR structural models) (16).
X
ABCC7 p.Pro355Ala 24876383:171:28
status: NEW
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174 GOF mutations in the pore-lining TM6 (P355A) and in the outer TM collar (K978C) have additive effects on CFTR channel activity.
X
ABCC7 p.Pro355Ala 24876383:174:38
status: NEW
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179 The P355A substitution increases the channel activities of CFTR mutant constructs that cannot be activated by ATP.
X
ABCC7 p.Pro355Ala 24876383:179:4
status: NEW
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183 Note the much larger control current for P355A/èc;1198-CFTR that was insensitive to the addition of the ATP scavenger (i.e. was ATP-independent).
X
ABCC7 p.Pro355Ala 24876383:183:41
status: NEW
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187 The much lower relative activation of the P355A mutants is due to their higher control or baseline currents.
X
ABCC7 p.Pro355Ala 24876383:187:42
status: NEW
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190 G, immunoblot of P355A-èc;1198, P355A-G551D, and P355A/K978C double mutants transiently expressed in HEK-293T cells.
X
ABCC7 p.Pro355Ala 24876383:190:17
status: NEW
X
ABCC7 p.Pro355Ala 24876383:190:36
status: NEW
X
ABCC7 p.Pro355Ala 24876383:190:53
status: NEW
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196 The double mutant (P355A/K978C-CFTR) exhibited relatively high ATP-independent currents in excised macropatches (b03;35% of the ATP control current) and strong activation by AMP-PNP that approached that by ATP (b03;90% of the ATP control current).
X
ABCC7 p.Pro355Ala 24876383:196:19
status: NEW
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198 It is also evident from the single mutant data in Fig. 5, B and C, that the K978C mutation had a somewhat stronger GOF effect than the P355A mutation.
X
ABCC7 p.Pro355Ala 24876383:198:135
status: NEW
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200 The P355A TM6 Mutation Increases the ATP Sensitivity of Channel Gating-A GOF or isomerization mutation is predicted by a classical allosteric activation scheme to enhance ligand occupancy at normally subsaturating concentrations.
X
ABCC7 p.Pro355Ala 24876383:200:4
status: NEW
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202 The data in Fig. 6 confirm this prediction both for the single P355A mutant (Fig. 6A) and for a double mutant in which the Pro-355 mutation was introduced into an NBD2 mutant that has a markedly reduced ATP affinity (Y1219G-CFTR; Fig. 6B).
X
ABCC7 p.Pro355Ala 24876383:202:63
status: NEW
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214 A, ATP titration curves for WT and P355A-CFTR channels averaged over five and four macropatch experiments, respectively.
X
ABCC7 p.Pro355Ala 24876383:214:35
status: NEW
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216 Symbols, means afe; S.E. (error bars); curves, best fits to the Hill equation (WT, K afd; 123.2 òe;M and Hill coefficient afd; 0.83; P355A, K afd; 47.7 òe;M and Hill coefficient afd; 1.01).
X
ABCC7 p.Pro355Ala 24876383:216:146
status: NEW
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219 Curves, best fits to Hill equation with K values of 1522, 683, and 180 òe;M and Hill coefficients of 1.69, 1.93, and 1.72 for Y1219G (n afd; 6 patches), P355A/Y1219G (n afd; 5), and K978C/Y1219G (n afd; 4), respectively.
X
ABCC7 p.Pro355Ala 24876383:219:160
status: NEW
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283 GOF effects of the P355A and K978C mutations were additive, implying that they influence channel gating by different mechanisms.
X
ABCC7 p.Pro355Ala 24876383:283:19
status: NEW
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307 Both the P355A and K978C GOF mutations increased the ATP sensitivity of the Y1219G mutant with the K978C substitution restoring the ATP sensitivity of channel gating to nearly wild type levels.
X
ABCC7 p.Pro355Ala 24876383:307:9
status: NEW
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