ABCC7 p.Glu1371Gln

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PMID: 15729345 [PubMed] Vergani P et al: "CFTR channel opening by ATP-driven tight dimerization of its nucleotide-binding domains."
No. Sentence Comment
71 Time constants for current decay fit lines (blue): WT, t ¼ 0.45 s; E1371Q, t ¼ 476 s. Note the fivefold expanded timescale for the WT record.
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ABCC7 p.Glu1371Gln 15729345:71:72
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73 Evidence supporting our speculation (Fig. 1a) that the CFTR-channel open state corresponds to the dimerized NBD conformation is provided by the approximately 1,000-fold stabilization of the open-burst state that results from mutation of the possible catalytic base4,17 , Glu 1371 (a glutamate in the NBD2-head 'Walker B` motif), to Gln (E1371Q; Fig. 1b).
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ABCC7 p.Glu1371Gln 15729345:73:337
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74 Because CFTR channels do not open without ATP (see below), current decay upon the removal of ATP reflects channel closing, and its time course measures the open burst duration; closing was complete within about 1 s of ATP withdrawal for wild-type (WT) CFTR channels (mean open burst duration was less than 0.5 s), but had a time constant of 411 ^ 64 s (mean ^ s.e.m., n ¼ 16) for mutant E1371Q channels (Fig. 1b).
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ABCC7 p.Glu1371Gln 15729345:74:392
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PMID: 16554808 [PubMed] Gadsby DC et al: "The ABC protein turned chloride channel whose failure causes cystic fibrosis."
No. Sentence Comment
147 Comparison of speed of closing of wild-type CFTR (a) and of mutant CFTR bearing the single mutation E1371Q (b), of the conserved Walker B glutamate.
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ABCC7 p.Glu1371Gln 16554808:147:100
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149 The greatly delayed closing of all four E1371Q channels (b), compared with the four WT CFTR channels (a), after removal of ATP supports the conclusion that ATP hydrolysis at the NBD2 composite catalytic site controls normal channel closing63-66,72-77,80 , and that the channel open-burst state corresponds to NBD dimerization22,29,69,70,80 .
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ABCC7 p.Glu1371Gln 16554808:149:40
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150 E1371Q ATPATP WT 0.5 pA 60 s a b opened only inefficiently by millimolar concentrations of poorly hydrolysable analogues such as AMP-PNP, AMP-PCP or ATP-γS53,62-64 , and not at all by ADP62 .
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ABCC7 p.Glu1371Gln 16554808:150:0
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174 One clue that the CFTR-channel open state corresponds to the heterodimerized NBD1-NBD2 conformation comes from the ~1,000-fold stabilization of the open state (Fig. 4b) caused by the mutation E1371Q of the Walker B Glu (the possible catalytic base29,81 ).
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ABCC7 p.Glu1371Gln 16554808:174:192
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PMID: 16989640 [PubMed] Stratford FL et al: "The Walker B motif of the second nucleotide-binding domain (NBD2) of CFTR plays a key role in ATPase activity by the NBD1-NBD2 heterodimer."
No. Sentence Comment
6 The present studies revealed that a mutant NBD2 (E1371Q) retains wild-type nucleotide binding affinity of NBD2.
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ABCC7 p.Glu1371Gln 16989640:6:49
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41 For E1371Q, the reverse primer 5 - CAAATGAGCACTGGGTTGATCAAGCAGC-3 and the forward primer 5 -GCTGCTTGATCAACCCAGTGCTCATTTG-3 were used.
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ABCC7 p.Glu1371Gln 16989640:41:4
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65 ATP depletion experiments Infected Sf9 cells expressing NBD1 and NBD2 (wild-type or E1371Q) were washed with PBS and collected by centrifugation.
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ABCC7 p.Glu1371Gln 16989640:65:84
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77 The dose-response of TNP-ATP binding to the mutant NBDs: S573E and E1371Q was analysed using a single site binding algorithm and curve fitting by GraphPad Prism to determine Kd values.
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ABCC7 p.Glu1371Gln 16989640:77:67
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84 Similarly, the Walker B mutant proteins (S573E) and (E1371Q) bearing polyhistidine tags and an HA tag, in the case of E1371Q, were expressed in Sf9 cells using the baculovirus system (Figure 1B).
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ABCC7 p.Glu1371Gln 16989640:84:53
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ABCC7 p.Glu1371Gln 16989640:84:118
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86 Both the purified NBD1 mutant (S573E) and purified NBD2 mutant (E1371Q) bind the ATP analogue, TNP-ATP, with low micromolar affinities (Figure 2), similar to the affinities previously reported for wild-type NBD1 (11.6 µM) and NBD2 (10.6 µM) [14].
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ABCC7 p.Glu1371Gln 16989640:86:64
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88 Walker B mutant of NBD2 (E1371Q) inhibits normal ATPase activity conferred by heterodimerization with NBD1 The ATPase activity of CFTR is conferred by heterodimerization of NBD1 and NBD2.
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ABCC7 p.Glu1371Gln 16989640:88:25
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164 Interestingly, we could not detect a significant difference in the association between wild-type NBD1 and NBD2 and the association between NBD1 and NBD2(E1371Q) following ATP depletion in cell culture prior to cell lysis (with the removal of extracellular glucose, and the addition of deoxyglucose and rotenone).
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ABCC7 p.Glu1371Gln 16989640:164:153
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165 In light of the recent studies by Vergani et al. [30] showing that ATP binding induced hydrogen bond formation between NBD1 and NBD2 in the vicinity of the 'catalytic site`, we predicted that the most stable interaction may have occurred between NBD1 and NBD2- (E1371Q) in ATP-replete cells.
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ABCC7 p.Glu1371Gln 16989640:165:262
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PMID: 17043148 [PubMed] Csanady L et al: "Thermodynamics of CFTR channel gating: a spreading conformational change initiates an irreversible gating cycle."
No. Sentence Comment
191 Even for the Walker B Glu mutant E1371Q CFTR channels, which display the most stable open-burst state observed for CFTR (closing time constant ‫004ف‬ s; Vergani et al., 2005), corresponding to Δ maxG‡ = 88 kJ/mol, if ∆H‡ is assumed ‫04ف‬ kJ/mol (its experimental determination would be a formidable task), the model predicts α Δ O-CG = -12 kJ/ mol, and again a similar overall energy profile.
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ABCC7 p.Glu1371Gln 17043148:191:33
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PMID: 18056267 [PubMed] Beck EJ et al: "Conformational changes in a pore-lining helix coupled to cystic fibrosis transmembrane conductance regulator channel gating."
No. Sentence Comment
120 Functional Effects of Cd2ϩ and MTSEA on Substituted Cysteines in E1371Q-CFTR-To study the accessibility of substituted cysteines in the open state, the effects of Cd2ϩ and MTSEA were examined for CFTR channels bearing the E1371Q mutation.
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ABCC7 p.Glu1371Gln 18056267:120:71
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ABCC7 p.Glu1371Gln 18056267:120:234
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123 Hence, the observed effects of Cd2ϩ and MTS reagents, on E1371Q CFTR represent effects on open channel state.
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ABCC7 p.Glu1371Gln 18056267:123:63
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124 As shown in Fig. 3A, the open probability (Po) of wild type CFTR channels was about 0.2, whereas it was nearly 1 for E1371Q-CFTR.
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ABCC7 p.Glu1371Gln 18056267:124:117
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137 A, effect of E1371Q mutation on CFTR channel activity.
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ABCC7 p.Glu1371Gln 18056267:137:13
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138 Representative single-channel current traces of WT (1371E; upper trace), and E1371Q (lower trace) CFTR.
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ABCC7 p.Glu1371Gln 18056267:138:77
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140 Note the time scale for E1371Q record.
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ABCC7 p.Glu1371Gln 18056267:140:24
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141 The mean Po of WT and E1371Q CFTR was 0.28 Ϯ 0.02 (n ϭ 7) and 0.93 Ϯ 0.02 (n ϭ 7), respectively.
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ABCC7 p.Glu1371Gln 18056267:141:22
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154 The differences in the magnitude of MTS modification suggest that in E1371Q background there is a significant change in TM6 structure.
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ABCC7 p.Glu1371Gln 18056267:154:69
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156 Effect of E1371Q Mutation on Thiol Modification Rates-To obtain quantitative information about changes in reactivity, the rates of substituted cysteine modification were calculated by fitting the time course of Cl-conductance modification with a single exponential, which was then used to calculate second order reaction rate constants for various MTS reagents.
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ABCC7 p.Glu1371Gln 18056267:156:10
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162 The difference in reaction rates between WT and Gln1371 channels was greatest for K335C, which reacted nearly 800 times more slowly in E1371Q background.
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ABCC7 p.Glu1371Gln 18056267:162:135
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164 MTSEA, and MTSES modification rates of residues in TM6 in WT and E1371Q backgrounds.
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ABCC7 p.Glu1371Gln 18056267:164:65
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168 CFTR Conformation Changes during Gating FEBRUARY 22, 2008•VOLUME 283•NUMBER 8 JOURNAL OF BIOLOGICAL CHEMISTRY 4961 decrease, and I331C reacted 5-fold slower (Fig. 4, B and C) in E1371Q channels.
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ABCC7 p.Glu1371Gln 18056267:168:193
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172 Alternatively, it is possible that the observed reaction rates in E1371Q mutational background are due to a change in the channel structure induced by the mutation and not related to structural changes associated with open channel state.
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ABCC7 p.Glu1371Gln 18056267:172:66
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222 State-dependent Reactivity Reflects a Local Rearrangement and Exposure of the Side Chains-We observed large differences in the rates of cysteine modification at three (residues 331, 333, and 335) of the five residues in the E1371Q background.
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ABCC7 p.Glu1371Gln 18056267:222:224
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232 Therefore, we cannot exclude the possibility that the combination of these two mutations, K335C and E1371Q is responsible for the observed changes in reactivity of K335C.
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ABCC7 p.Glu1371Gln 18056267:232:100
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247 In contrast, our results show that the reactivity of R334C does not exhibit state dependence either under varying activation levels or in the E1371Q channel.
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ABCC7 p.Glu1371Gln 18056267:247:142
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249 A notable difference between the two mutations is that the Walker A mutation K1250A, unlike E1371Q, decreases the ATP binding affinity of NBD2 (27), which profoundly reduces the channel opening rate (28, 29) in addition to decreasing the closing rate (30) of CFTR.
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ABCC7 p.Glu1371Gln 18056267:249:92
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PMID: 18241200 [PubMed] Ramjeesingh M et al: "The intact CFTR protein mediates ATPase rather than adenylate kinase activity."
No. Sentence Comment
5 Furthermore, mutation of the putative catalytic base in CFTR caused a reduction in ATPase activity, with the CFTR-E1371Q mutant supporting a low level of residual activity.
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ABCC7 p.Glu1371Gln 18241200:5:114
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19 The channel function of the CFTR-E1371Q mutant has been studied, and it exhibits a prolonged channel open time, consistent with the idea that ATPase activity promotes channel closure [6,7].
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ABCC7 p.Glu1371Gln 18241200:19:33
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26 Furthermore, the consequences of the disease-causing mutation G551D and the catalytic base mutation E1371Q on the enzymatic activity of the full-length protein were also evaluated.
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ABCC7 p.Glu1371Gln 18241200:26:100
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36 Purification and reconstitution of wt (wild-type), CFTR-G551D and CFTR-E1371Q Detailed protocols regarding the generation of wt and mutant CFTR-His10 proteins are described elsewhere [29,30].
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ABCC7 p.Glu1371Gln 18241200:36:71
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118 Interestingly, the addition of AMP (400 μM) to PKA-treated CFTR did not exert any significant effect on its ATPase activity (Figures 3A and 5B), a finding which is consistent with previous Figure 4 The disease-causing mutant CFTR-G551D and the putative catalytic base mutant CFTR-E1371Q exhibit reduced ATPase activity (A) Silver-stained gel showing purification of CFTR-E1371Q.
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ABCC7 p.Glu1371Gln 18241200:118:286
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ABCC7 p.Glu1371Gln 18241200:118:377
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119 (B) Phosphoimage shows Pi production by proteoliposomes containing CFTR-E1371Q (right panel) compared with empty liposomes in the absence (-) or presence (+) of 400 μM AMP.
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ABCC7 p.Glu1371Gln 18241200:119:72
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120 (C) ATPase activity (Results are means + - S.E.M.) of CFTR-G551D (n = 6) or CFTR-E1371Q (n = 6).
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ABCC7 p.Glu1371Gln 18241200:120:81
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125 The enzymatic activity of full-length mutant CFTR proteins: CFTRG551D and CFTR-E1371Q Gly551 is located in the signature motif of NBD1 [1] and is thought to exist at the interface through which NBD1 and NBD2 interact to form the catalytic site for ATP hydrolysis [4,7].
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ABCC7 p.Glu1371Gln 18241200:125:79
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132 Therefore we expressed the full-length mutant protein CFTR-E1371Q and purified it from Sf9 cells (Figure 4A) for the purpose of studying its ATPase activity.
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ABCC7 p.Glu1371Gln 18241200:132:59
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136 As for the wt and CFTR-G551D proteins, there was no measurable adenylate kinase activity stimulated in CFTR-E1371Q by the addition of 400 μM AMP (Figure 4B).
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ABCC7 p.Glu1371Gln 18241200:136:108
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198 Substitution of Glu1371 with a glutamine residue has been shown to delay the rate of channel closing, providing support for the idea that ATPase activity promotes closure of the channel gate [6,7].
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ABCC7 p.Glu1371Gln 18241200:198:16
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200 Interestingly, the ATPase activity of CFTR was not completely inhibited in the CFTR-E1371Q mutant, which exhibited approx.
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ABCC7 p.Glu1371Gln 18241200:200:84
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PMID: 20110677 [PubMed] Kloch M et al: "The H-loop in the second nucleotide-binding domain of the cystic fibrosis transmembrane conductance regulator is required for efficient chloride channel closing."
No. Sentence Comment
195 Substitution of this conserved glutamate with either serine (E1371S) or glutamine (E1371Q) produces a channel that displays prolonged open times [3, 16, 21, 59].
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ABCC7 p.Glu1371Gln 20110677:195:83
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196 Importantly, a recent study has demonstrated that the E1371Q substitution leads to significant decrease ofATPase activity in the full-length CFTR [50] and an earlier study has shown that the same mutation abolishes the ATPase activity of the NBD1-NBD2 heterodimer, while not affecting the nucleotide binding affinity of NBD2 [49].
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ABCC7 p.Glu1371Gln 20110677:196:54
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197 Hence, although we have no data regarding the influence of E1371Q on the CFTR opening rate, it seems that mutations affecting either the H-loop or Glu1371 have a very similar impact on ATP-dependent CFTR gating, which suggests close cooperation of both these elements, as predicted in the catalytic dyad model.
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ABCC7 p.Glu1371Gln 20110677:197:59
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PMID: 20142516 [PubMed] Zhou JJ et al: "Regulation of conductance by the number of fixed positive charges in the intracellular vestibule of the CFTR chloride channel pore."
No. Sentence Comment
32 In some cases (see Fig. 7 and Fig. S4), macroscopic currents were recorded from cell-attached patches on unstimulated cells expressing spontaneously active E1371Q-CFTR channels.
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ABCC7 p.Glu1371Gln 20142516:32:156
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36 Because channels bearing the E1371Q mutation appeared to be spontaneously active even in the absence of ATP (see Fig. S4), inside-out patch recordings of this construct were made in the absence of PKA or ATP unless stated otherwise.
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ABCC7 p.Glu1371Gln 20142516:36:29
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37 Background current levels in these E1371Q mutants were determined at the end of the experiment by adding a high concentration (10 µM) of the specific CFTR inhibitor CFTRinh-172 (Ma et al., 2002) to the cytoplasmic solution in excised inside-out membrane patches.
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ABCC7 p.Glu1371Gln 20142516:37:35
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65 Fig. S4 compares the activity of wild type and E1371Q in on-cell and inside-out membrane patches.
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ABCC7 p.Glu1371Gln 20142516:65:47
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67 Fig. S6 shows the block of E1371Q and E1371Q/S1141K by intracellular Pt(NO2)4 2 ions.
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ABCC7 p.Glu1371Gln 20142516:67:27
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ABCC7 p.Glu1371Gln 20142516:67:38
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82 For E1371Q mutant channels, background currents were determined after the addition of 10 µM CFTRinh-172 (see above).
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ABCC7 p.Glu1371Gln 20142516:82:4
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87 Because of the effects of ATP on CFTR channel gating, these experiments were performed in an E1371Q background.
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ABCC7 p.Glu1371Gln 20142516:87:93
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193 Mean of data from four to five patches in B-D. tion of 10 mM ATP caused a potent inhibition of S1141K/E1371Q current during 400-ms hyperpolarizing voltage steps from a holding potential of +60 mV (Fig. 6 A).
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ABCC7 p.Glu1371Gln 20142516:193:104
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194 Time-dependent inhibition by ATP was still apparent; however, use of the E1371Q background provides direct evidence that ATP inhibits current flow because the amplitude of the current is greatly reduced.
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ABCC7 p.Glu1371Gln 20142516:194:73
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197 In contrast to the strong inhibition of S1141K/ E1371Q current by ATP under these conditions, 10 mM prolongation of CFTR channel open times (Vergani et al., 2003; Gadsby et al., 2006; Stratford et al., 2007).
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ABCC7 p.Glu1371Gln 20142516:197:48
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198 To our surprise, we found that the E1371Q mutant was constitutively active in on-cell recordings from intact BHK cells, and that even after excision into nominally ATP-free solutions, channel activity remained maximal (Fig. S4).
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ABCC7 p.Glu1371Gln 20142516:198:35
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199 Although the reasons for this constitutive activity, which contrasts with a complete lack of spontaneous activity we observe for other CFTR constructs expressed in BHK cells, are unknown, it did allow us to quantify ATP effects on S1141K current amplitude in an E1371Q background in inside-out membrane patches, beginning with 0 ATP control conditions (Fig. 6).
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ABCC7 p.Glu1371Gln 20142516:199:262
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200 With a low extracellular Cl concentration (4 mM), the addi- Figure 6.  Inhibition of S1141K/E1371Q-CFTR by intracellular ATP.
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ABCC7 p.Glu1371Gln 20142516:200:107
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201 (A) Example macroscopic currents carried by S1141K/E1371Q during hyperpolarizing voltage steps to between +60 and 100 mV recorded under conditions of low extracellular Cl concentration (4 mM).
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ABCC7 p.Glu1371Gln 20142516:201:51
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205 Also shown are the effects of 10 mM ATP on E1371Q () and K95S/S1141K/E1371Q () at 100 mV.
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ABCC7 p.Glu1371Gln 20142516:205:43
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ABCC7 p.Glu1371Gln 20142516:205:77
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206 (C) Example macroscopic S1141K/E1371Q currents during voltage steps to between +60 and 100 mV recorded with a high extracellular Cl concentration (154 mM) before (control) and after the addition of 10 mM Na2ATP to the intracellular solution in the absence of PKA.
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ABCC7 p.Glu1371Gln 20142516:206:31
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213 We took advantage of constitutive activity of E1371Q in BHK cells (see above) to monitor channel block in intact cells. CFTR activity was monitored using a voltage step protocol, both during on-cell recording and after patch excision into the inside-out configuration in the absence of ATP and PKA (Fig. 7).
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ABCC7 p.Glu1371Gln 20142516:213:46
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216 With high Cl concentration pipette solution, E1371Q showed outward rectification of the macroscopic I-V relationship during cell-attached recording (Fig. 7, A and B).
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ABCC7 p.Glu1371Gln 20142516:216:53
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218 Outward rectification in cell-attached patches under these conditions was even more pronounced in S1141K/ E1371Q, and again this rectification was relieved by excision of the membrane patch, resulting in a linear I-V relationship in inside-out patches.
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ABCC7 p.Glu1371Gln 20142516:218:106
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221 Such analysis revealed that current inhibition in cell-attached patches was significantly stronger in S1141K/E1371Q than in E1371Q at hyperpolarized voltages, both at high extracellular Cl concentrations (Fig. 7 C) and at low Cl concentrations (Fig. 7 D).
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ABCC7 p.Glu1371Gln 20142516:221:109
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ABCC7 p.Glu1371Gln 20142516:221:124
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224 However, the effects of complementary mutations at K95 and at S1141 in TM12 suggest that the important functional role of this positive ATP had no effect on E1371Q and only a very small inhibitory effect on K95S/S1141K/E1371Q (Fig. 6 B).
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ABCC7 p.Glu1371Gln 20142516:224:157
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ABCC7 p.Glu1371Gln 20142516:224:219
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225 Interestingly, the inhibition of S1141K/E1371Q by intracellular ATP was very much weaker when using a high extracellular Cl concentration (154 mM; Fig. 6 C) during voltage steps of the same duration.
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ABCC7 p.Glu1371Gln 20142516:225:40
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237 Under ATP-free conditions, block by intracellular Pt(NO2)4 2 was dramatically more potent in E1371Q/S1141K compared with E1371Q alone, leading to a 38-fold decrease in mean Kd(0) (Fig. S6).
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ABCC7 p.Glu1371Gln 20142516:237:101
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ABCC7 p.Glu1371Gln 20142516:237:129
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240 (A) Example macroscopic currents carried by E1371Q and S1141K/E1371Q-CFTR in cell-attached patches (left panels) after excision into the inside-out patch configuration (middle panels) and after the addition of 10 µM CFTRinh-172 to the intracellular solution (right panels).
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ABCC7 p.Glu1371Gln 20142516:240:44
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ABCC7 p.Glu1371Gln 20142516:240:62
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271 This would not be surprising in evolutionary terms because maximization of Cl conductance is the physiologically meaningful role of the positive charge associated with K95 in this part of the inner vestibule of the pore, with interaction with channel blockers current amplitude in cell-attached patches as a fraction of current in the same patch after excision into the inside-out patch configuration for both E1371Q () and S1141K/E1371Q (), with 154 mM Cl (C) or 4 mM Cl (D) in the extracellular solution.
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ABCC7 p.Glu1371Gln 20142516:271:418
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ABCC7 p.Glu1371Gln 20142516:271:447
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284 Consistent with this, the apparent affinity of block by small, divalent Pt(NO2)4 2 anions was increased 38-fold in S1141K/ E1371Q compared with E1371Q (Fig. S6).
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ABCC7 p.Glu1371Gln 20142516:284:139
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ABCC7 p.Glu1371Gln 20142516:284:160
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338 As shown in Fig. 7, this inhibition is pronounced in BHK cells, leading to an 60% block of wild-type (actually E1371Q) currents in intact cells at 100 mV with high extracellular Cl .
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ABCC7 p.Glu1371Gln 20142516:338:119
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340 Although block appears strong in wild type (E1371Q), it is still significantly strengthened in S1141K (Fig. 7), suggesting that the number of fixed positive charges in the inner vestibule of the pore controls interactions with endogenous cytoplasmic-blocking molecules, and therefore (in intact cells) overall channel function in terms of the rate of anion efflux.
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ABCC7 p.Glu1371Gln 20142516:340:44
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343 This may be because the presence of an additional positive charge favors attraction of polyvalent anions into the pore, whereas the normal substrates of CFTR-mediated transport (Cl and HCO3  ) are monovalent anions. An overall decrease in channel function in intact cells is demonstrated in on-cell current recordings (Fig. 7), which show decreased Cl currents (relative to unblocked currents after patch excision to the inside-out configuration) at hyperpolarized voltages in S1141K/E1371Q relative to E1371Q alone.
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ABCC7 p.Glu1371Gln 20142516:343:508
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ABCC7 p.Glu1371Gln 20142516:343:527
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PMID: 20667826 [PubMed] Thibodeau PH et al: "The cystic fibrosis-causing mutation deltaF508 affects multiple steps in cystic fibrosis transmembrane conductance regulator biogenesis."
No. Sentence Comment
201 Conversely, mutation of the catalytic glutamate to glutamine in NBD2, E1371Q, has previously been shown to stabilize NBD dimers by trapping ATP at the NBD-NBD interface (39).
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ABCC7 p.Glu1371Gln 20667826:201:70
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204 Stabilization of the putative NBD1-NBD2 dimer via the E1371Q mutation did not facilitate the trafficking of the ⌬F508 protein and had no discernible effect on the maturation of the wild type protein.
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ABCC7 p.Glu1371Gln 20667826:204:54
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282 The NBD-dimer stabilizing mutation, E1371Q, does not dramatically alter the trafficking of the wild type or ⌬F508 CFTR proteins when expressed transiently in HEK-293 cells.
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ABCC7 p.Glu1371Gln 20667826:282:36
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305 Stabilization of the NBD heterodimer by the E1371Q mutation had no discernible effect on wild type or ⌬F508 maturation (Fig. 5B).
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ABCC7 p.Glu1371Gln 20667826:305:44
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306 The failure of the E1371Q mutant to rescue ⌬F508 CFTR is consistent with ⌬F508 influence on the early step of NBD1 folding and that FIGURE 6.
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ABCC7 p.Glu1371Gln 20667826:306:19
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355 Acknowledgments-We thank David Gadsby for suggesting the use of the NBD dimer stabilizing E1371Q mutation and members of the Thomas laboratory for critical comments and helpful suggestions.
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ABCC7 p.Glu1371Gln 20667826:355:90
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PMID: 20876359 [PubMed] Szollosi A et al: "Involvement of F1296 and N1303 of CFTR in induced-fit conformational change in response to ATP binding at NBD2."
No. Sentence Comment
242 Although for WT CFTR and for the nonhydrolytic mutant D1370N these two parameters are in rough agreement (Csanády et al., 2010), such comparisons have not yet been done for several other NBD2mutantsdefectiveinATPhydrolysis(e.g.,K1250R, K1250A, E1371S, and E1371Q).
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ABCC7 p.Glu1371Gln 20876359:242:261
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PMID: 20926782 [PubMed] Li MS et al: "Regulation of CFTR chloride channel macroscopic conductance by extracellular bicarbonate."
No. Sentence Comment
10 Using cell-attached and inside-out patch-clamp recordings from constitutively active mutant E1371Q-CFTR channels, we show that voltage-dependent inhibition of CFTR currents in intact cells is significantly stronger when the extracellular solution contains HCO3 - than when it contains Cl- .
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ABCC7 p.Glu1371Gln 20926782:10:92
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30 In the present study, we have taken advantage of the fact that mutant E1371Q-CFTR channels show constitutive, high levels of activity in baby hamster kidney (BHK) cells (61) to monitor and investigate voltage-dependent channel block in cell-attached patches.
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ABCC7 p.Glu1371Gln 20926782:30:70
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38 All experiments were carried out in an E1371Q-CFTR background, the properties of which were described in detail recently (61).
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ABCC7 p.Glu1371Gln 20926782:38:39
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40 When expressed in BHK cells, E1371Q-CFTR forms constitutively active channels that are insensitive to stimulation by exogenous protein kinase A, suggesting that the activity of these channels is Fig. 1. Anion-sensitive channel inhibition in intact cells.
X
ABCC7 p.Glu1371Gln 20926782:40:29
status: NEW
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ABCC7 p.Glu1371Gln 20926782:40:41
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41 A and B: macroscopic currents carried by E1371Q-CFTR during depolarizing voltage ramps from -100 to ϩ60 mV, with Cl- - or gluconate-containing pipette solutions.
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ABCC7 p.Glu1371Gln 20926782:41:41
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51 Consistent with this, E1371Q and other mutations constructed in this background gave stable current amplitudes in cell-attached membrane patches and in excised, inside-out membrane patches under all ionic conditions investigated.
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ABCC7 p.Glu1371Gln 20926782:51:22
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52 Patch-clamp recordings of E1371Q-CFTR channel macroscopic currents were as described in detail recently (61).
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ABCC7 p.Glu1371Gln 20926782:52:26
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64 Under these conditions, changes in current amplitude and reversal potential appeared reversible (see Fig. 5), consistent with stable E1371Q channel activity over time.
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ABCC7 p.Glu1371Gln 20926782:64:133
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74 A: macroscopic currents carried by E1371Q-CFTR during depolarizing voltage ramps from -100 to ϩ60 mV with HCO3 - -containing pipette solution. Currents were recorded from cell-attached patches and immediately following patch excision to the inside-out configuration and following addition of 20 ␮M CFTRinh-172 to intracellular solution. Zero current level is indicated by dotted line. B: macroscopic I-V relationships for patch described in A following subtraction of leak current recorded in the presence of CFTRinh-172 in on-cell and inside-out patch configurations.
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ABCC7 p.Glu1371Gln 20926782:74:35
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84 Recently, we used constitutively active E1371Q-CFTR channels expressed in BHK cells to quantify the degree of channel inhibition that underlies this outward rectification in intact cells (61).
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ABCC7 p.Glu1371Gln 20926782:84:40
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91 A: leak-subtracted E1371Q-CFTR macroscopic I-V relationships recorded with Cl- -, gluconate-, or HCO3 - -containing pipette solutions.
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ABCC7 p.Glu1371Gln 20926782:91:19
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105 This confirms that gluconate and HCO3 - are less able to generate knock off of intracellular open channel blockers in E1371Q-CFTR than is Cl- .
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ABCC7 p.Glu1371Gln 20926782:105:118
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112 Interestingly, PHCO3/PCl for E1371Q-CFTR estimated using a high concentration of extracellular HCO3 - (0.12 Ϯ 0.01, n ϭ 12; Fig. 4D) was significantly lower (P Ͻ 0.02) than that under the reversed ionic gradient (150 mM internal HCO3 - , 154 mM external Cl- ; Fig. 5).
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ABCC7 p.Glu1371Gln 20926782:112:29
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118 To investigate whether these positively charged residues influence the strength of channel block by cytosolic anions in intact cells, we neutralized these charges in an E1371Q background.
X
ABCC7 p.Glu1371Gln 20926782:118:54
status: NEW
X
ABCC7 p.Glu1371Gln 20926782:118:69
status: NEW
X
ABCC7 p.Glu1371Gln 20926782:118:88
status: NEW
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ABCC7 p.Glu1371Gln 20926782:118:169
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119 Figure 6A shows macroscopic currents carried by K95Q/ E1371Q-, R303Q/E1371Q-, and K978Q/E1371Q-CFTR in Fig. 4.
X
ABCC7 p.Glu1371Gln 20926782:119:54
status: NEW
X
ABCC7 p.Glu1371Gln 20926782:119:69
status: NEW
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ABCC7 p.Glu1371Gln 20926782:119:88
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130 Comparison of the fractional current in cell-attached patches seen in these mutants with those for E1371Q under the same ionic conditions (Fig. 1) suggests that block of each of these mutants is weakened under cell-attached conditions, particularly at hyperpolarized voltages, where block is usually strongest (Fig. 6B).
X
ABCC7 p.Glu1371Gln 20926782:130:99
status: NEW
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ABCC7 p.Glu1371Gln 20926782:130:104
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131 Interestingly, the effects of the K95Q and R303Q mutations did not appear additive, with the K95Q/R303Q/E1371Q mutant showing relief of block following patch excision similar to that shown by K95Q/E1371Q (Fig. 6).
X
ABCC7 p.Glu1371Gln 20926782:131:104
status: NEW
X
ABCC7 p.Glu1371Gln 20926782:131:197
status: NEW
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ABCC7 p.Glu1371Gln 20926782:131:238
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132 Although channels bearing the K95Q mutation did give smaller currents in cell-attached patches than those seen following patch excision, this effect appeared voltage-independent, in contrast to the clearly voltage-dependent inhibition of E1371Q (Fig. 6B).
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ABCC7 p.Glu1371Gln 20926782:132:238
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144 Permeability of intracellular HCO3 - in E1371Q-CFTR.
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ABCC7 p.Glu1371Gln 20926782:144:35
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145 A: macroscopic currents carried by E1371Q in an inside-out patch during depolarizing voltage ramps from -100 to ϩ60 mV with Cl- -containing pipette solution. Currents were recorded after they had attained a stable amplitude in inside-out patches, during perfusion with Cl- - or HCO3 - -containing intracellular (bath) solutions and following addition of 20 ␮M CFTRinh-172 to intracellular solution. Zero current level is indicated by dotted line. B: macroscopic I-V relationships for patch in A following subtraction of leak current recorded in the presence of CFTRinh-172, when intracellular solution contained Cl- or HCO3 - .
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ABCC7 p.Glu1371Gln 20926782:145:35
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151 In native epithelial cells, we would expect changes in external [Cl- ] and [HCO3 - ] to alter open channel conductance (present study) and channel open probability (38, 58); the use of the constitutively active, gating-defective E1371Q-CFTR mutant in the present study was therefore important to isolate and characterize anion effects on open channels.
X
ABCC7 p.Glu1371Gln 20926782:151:229
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154 A: macroscopic I-V relationships for channel mutants (in an E1371Q background) following subtraction of leak currents recorded in the presence of CFTRinh-172 in on-cell and inside-out patch configurations with gluconate-containing pipette solutions.
X
ABCC7 p.Glu1371Gln 20926782:154:60
status: NEW
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ABCC7 p.Glu1371Gln 20926782:154:265
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155 B: quantification of current inhibition in intact cells. Macroscopic current amplitude in cell-attached patches is plotted as a fraction of current in the same patch immediately after excision to inside-out patch configuration for the named mutant () and for E1371Q as control (Œ, see Fig. 1).
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ABCC7 p.Glu1371Gln 20926782:155:265
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157 Values are means for 18 (for E1371Q) and 5-7 (for other mutants) patches.
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ABCC7 p.Glu1371Gln 20926782:157:28
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158 Significant difference from E1371Q: *P Ͻ 0.02; **P Ͻ 0.00001.
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ABCC7 p.Glu1371Gln 20926782:158:28
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173 The HCO3 - permeability of E1371Q-CFTR (Fig. 4) was comparable to that reported many times previously for wild-type CFTR in epithelial cells and heterologous expression systems (25, 55).
X
ABCC7 p.Glu1371Gln 20926782:173:27
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9 Using cell-attached and inside-out patch-clamp recordings from constitutively active mutant E1371Q-CFTR channels, we show that voltage-dependent inhibition of CFTR currents in intact cells is significantly stronger when the extracellular solution contains HCO3 - than when it contains Cl- .
X
ABCC7 p.Glu1371Gln 20926782:9:92
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29 In the present study, we have taken advantage of the fact that mutant E1371Q-CFTR channels show constitutive, high levels of activity in baby hamster kidney (BHK) cells (61) to monitor and investigate voltage-dependent channel block in cell-attached patches.
X
ABCC7 p.Glu1371Gln 20926782:29:70
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37 All experiments were carried out in an E1371Q-CFTR background, the properties of which were described in detail recently (61).
X
ABCC7 p.Glu1371Gln 20926782:37:39
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39 When expressed in BHK cells, E1371Q-CFTR forms constitutively active channels that are insensitive to stimulation by exogenous protein kinase A, suggesting that the activity of these channels is Fig. 1. Anion-sensitive channel inhibition in intact cells.
X
ABCC7 p.Glu1371Gln 20926782:39:29
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50 Consistent with this, E1371Q and other mutations constructed in this background gave stable current amplitudes in cell-attached membrane patches and in excised, inside-out membrane patches under all ionic conditions investigated.
X
ABCC7 p.Glu1371Gln 20926782:50:22
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63 Under these conditions, changes in current amplitude and reversal potential appeared reversible (see Fig. 5), consistent with stable E1371Q channel activity over time.
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ABCC7 p.Glu1371Gln 20926782:63:133
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73 A: macroscopic currents carried by E1371Q-CFTR during depolarizing voltage ramps from -100 to ϩ60 mV with HCO3 - -containing pipette solution. Currents were recorded from cell-attached patches and immediately following patch excision to the inside-out configuration and following addition of 20 ␮M CFTRinh-172 to intracellular solution. Zero current level is indicated by dotted line. B: macroscopic I-V relationships for patch described in A following subtraction of leak current recorded in the presence of CFTRinh-172 in on-cell and inside-out patch configurations.
X
ABCC7 p.Glu1371Gln 20926782:73:35
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83 Recently, we used constitutively active E1371Q-CFTR channels expressed in BHK cells to quantify the degree of channel inhibition that underlies this outward rectification in intact cells (61).
X
ABCC7 p.Glu1371Gln 20926782:83:40
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90 A: leak-subtracted E1371Q-CFTR macroscopic I-V relationships recorded with Cl- -, gluconate-, or HCO3 - -containing pipette solutions.
X
ABCC7 p.Glu1371Gln 20926782:90:19
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104 This confirms that gluconate and HCO3 - are less able to generate knock off of intracellular open channel blockers in E1371Q-CFTR than is Cl- .
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ABCC7 p.Glu1371Gln 20926782:104:118
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111 Interestingly, PHCO3/PCl for E1371Q-CFTR estimated using a high concentration of extracellular HCO3 - (0.12 Ϯ 0.01, n ϭ 12; Fig. 4D) was significantly lower (P Ͻ 0.02) than that under the reversed ionic gradient (150 mM internal HCO3 - , 154 mM external Cl- ; Fig. 5).
X
ABCC7 p.Glu1371Gln 20926782:111:29
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117 To investigate whether these positively charged residues influence the strength of channel block by cytosolic anions in intact cells, we neutralized these charges in an E1371Q background.
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ABCC7 p.Glu1371Gln 20926782:117:169
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129 Comparison of the fractional current in cell-attached patches seen in these mutants with those for E1371Q under the same ionic conditions (Fig. 1) suggests that block of each of these mutants is weakened under cell-attached conditions, particularly at hyperpolarized voltages, where block is usually strongest (Fig. 6B).
X
ABCC7 p.Glu1371Gln 20926782:129:99
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143 Permeability of intracellular HCO3 - in E1371Q-CFTR.
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ABCC7 p.Glu1371Gln 20926782:143:40
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150 In native epithelial cells, we would expect changes in external [Cl- ] and [HCO3 - ] to alter open channel conductance (present study) and channel open probability (38, 58); the use of the constitutively active, gating-defective E1371Q-CFTR mutant in the present study was therefore important to isolate and characterize anion effects on open channels.
X
ABCC7 p.Glu1371Gln 20926782:150:229
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153 A: macroscopic I-V relationships for channel mutants (in an E1371Q background) following subtraction of leak currents recorded in the presence of CFTRinh-172 in on-cell and inside-out patch configurations with gluconate-containing pipette solutions.
X
ABCC7 p.Glu1371Gln 20926782:153:60
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156 Values are means for 18 (for E1371Q) and 5-7 (for other mutants) patches.
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ABCC7 p.Glu1371Gln 20926782:156:29
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172 The HCO3 - permeability of E1371Q-CFTR (Fig. 4) was comparable to that reported many times previously for wild-type CFTR in epithelial cells and heterologous expression systems (25, 55).
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ABCC7 p.Glu1371Gln 20926782:172:27
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PMID: 21594800 [PubMed] Cai Z et al: "Application of high-resolution single-channel recording to functional studies of cystic fibrosis mutants."
No. Sentence Comment
202 Furthermore, relaxation analysis of macroscopic currents is the method of choice to analyse the burst duration of CFTR constructs that open for tens of hundreds of seconds (e.g. E1371Q, (47)), because it can be very difficult to collect sufficient gating transitions for microscopic kinetic analysis of channel gating for these CFTR constructs.
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ABCC7 p.Glu1371Gln 21594800:202:178
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PMID: 21594801 [PubMed] Csanady L et al: "Electrophysiological, biochemical, and bioinformatic methods for studying CFTR channel gating and its regulation."
No. Sentence Comment
135 For instance, mutations might simultaneously alter the rates of both gating transitions by up to 1000-fold with no large effect on Po (e.g., E1371Q; (1)), emphasizing the importance of kinetic analysis for mechanistic understanding.
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ABCC7 p.Glu1371Gln 21594801:135:141
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PMID: 22612315 [PubMed] Li MS et al: "Pseudohalide anions reveal a novel extracellular site for potentiators to increase CFTR function."
No. Sentence Comment
36 Macroscopic current recordings were carried out in an E1371Q-CFTR background (see below).
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ABCC7 p.Glu1371Gln 22612315:36:54
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40 Patch clamp recording of CFTR In order to monitor and compare CFTR macroscopic conductance in intact cells and in excised membrane patches, we used mutant E1371Q-CFTR channels that show constitutive, high levels of activity when expressed in BHK cells (Zhou et al., 2010; Li et al., 2011).
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ABCC7 p.Glu1371Gln 22612315:40:155
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42 Patch clamp recording of E1371Q-CFTR macroscopic currents was carried out as described in detail recently (Zhou et al., 2010; Li et al., 2011).
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ABCC7 p.Glu1371Gln 22612315:42:25
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77 Experimentally, these regulatory effects of extracellular anions can be monitored and quantified using the constitutively active E1371Q-CFTR mutant, as described in detail previously (Li et al., 2011).
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ABCC7 p.Glu1371Gln 22612315:77:129
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78 With low extracellular Cl- concentrations, E1371Q-CFTR currents in intact cells are small due to block by cytosolic anions, the extent of which can be observed by the increase in current amplitude due to relief of block when the membrane patch is excised to the inside-out configuration (Li et al., 2011).
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ABCC7 p.Glu1371Gln 22612315:78:43
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94 However, with 10 mM Co(NO2)6 3- in the extracellular Figure 1 Effect of external pseudohalide anions on macroscopic E1371Q-CFTR currents in cell-attached and inside-out membrane patches recorded with low extracellular chloride concentration.
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ABCC7 p.Glu1371Gln 22612315:94:116
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95 Example leak-subtracted macroscopic I-V relationships for E1371Q-CFTR recorded under low (4 mM) extracellular Cl-concentration conditions. Constitutively active currents were recorded from cell-attached patches (on cell) and immediately after patch excision (inside out).
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ABCC7 p.Glu1371Gln 22612315:95:58
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102 To gain information on the molecular mechanism of action of extracellular pseudohalide anions, we tested their ability to stimulate CFTR conductance in E1371Q-CFTR channels in which these positively charged residues had been neutralized.
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ABCC7 p.Glu1371Gln 22612315:102:152
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104 Examples of the macroscopic I-V relationships for R334Q, K892Q, R899Q and K892Q/R899Q (all in an E1371Q background) are shown in Figure 5A.
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ABCC7 p.Glu1371Gln 22612315:104:97
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112 Neutralization of both of these extracellular positive charges, in the K892Q/R899Q/ E1371Q triple mutant, resulted in apparent blocker sensitivity that, as in R899Q/E1371Q, was not significantly affected by extracellular Co(CN)6 3- or Co(NO2)6 3- (Figure 5D,E).
X
ABCC7 p.Glu1371Gln 22612315:112:84
status: NEW
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ABCC7 p.Glu1371Gln 22612315:112:165
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135 (A) Example leak-subtracted macroscopic I-V relationships for E1371Q-CFTR recorded under high (154 mM) extracellular Cl-concentration conditions. Constitutively active currents were recorded from cell-attached patches (on cell) and immediately after patch excision (inside out).
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ABCC7 p.Glu1371Gln 22612315:135:62
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144 (A-C) Examples of leak-subtracted macroscopic I-V relationships for different mutants in an E1371Q-CFTR background recorded under low (4 mM) extracellular Cl-concentration conditions (compare E1371Q alone in Figure 1).
X
ABCC7 p.Glu1371Gln 22612315:144:92
status: NEW
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ABCC7 p.Glu1371Gln 22612315:144:192
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157 Evidence that multivalent pseudohalide anions can increase CFTR function comes from the ability of these compounds to increase apparent macroscopic conductance of the constitutively active E1371Q-CFTR mutant in intact cells.
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ABCC7 p.Glu1371Gln 22612315:157:189
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158 Previously, we showed that extracellular Cl- has a similar stimulating effect on E1371Q-CFTR conductance in intact cells, via its ability to destabilize the blockage of open channels by cytosolic substances, blockage which acts to decrease CFTR conductance in a voltage-dependent fashion (Li et al., 2011).
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ABCC7 p.Glu1371Gln 22612315:158:81
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162 Mean fractional current recorded in cell-attached patches relative to inside-out patches for each of the channel variants named (in each case, in an E1371Q background), under low (4 mM) or high (154 mM) extracellular Cl-concentration conditions.
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ABCC7 p.Glu1371Gln 22612315:162:149
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170 Currently, the mechanism by which these compounds stimulate anion secretion in Calu-3 cell monolayers, and its relationship to their effect on E1371Q-CFTR macroscopic conductance in BHK cells, are not known.
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ABCC7 p.Glu1371Gln 22612315:170:143
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180 suggesting they might have effects on these epithelial cells unrelated to their effects on E1371Q-CFTR channels.
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ABCC7 p.Glu1371Gln 22612315:180:91
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PMID: 22966013 [PubMed] Tsai MF et al: "CFTR: An ion channel with a transporter-type energy-coupling mechanism."
No. Sentence Comment
53 Indeed, unlike ABC transporters, which absolutely require ATPase activity to move substrates, CFTR mutants incapable of catalyzing ATP hydrolysis (e.g., K1250A, D13710N, and E1371Q) exhibit gating transitions with open probabilities comparable to WT (Powe et al., 2002; Vergani et al., 2003).
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ABCC7 p.Glu1371Gln 22966013:53:174
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51 Indeed, unlike ABC transporters, which absolutely require ATPase activity to move substrates, CFTR mutants incapable of catalyzing ATP hydrolysis (e.g., K1250A, D13710N, and E1371Q) exhibit gating transitions with open probabilities comparable to WT (Powe et al., 2002; Vergani et al., 2003).
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ABCC7 p.Glu1371Gln 22966013:51:174
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PMID: 22923500 [PubMed] Norimatsu Y et al: "Locating a Plausible Binding Site for an Open Channel Blocker, GlyH-101, in the Pore of the Cystic Fibrosis Transmembrane Conductance Regulator."
No. Sentence Comment
220 The state-dependent reactivity of T338C CFTR observed in the current study is consistent with the finding of Beck et al., (2008) that MTSES- reacts slightly faster with a high open probability mutant T338C/E1371Q CFTR than with T338C/wt CFTR.2 Mornon et al., (2009) created a homology model of CFTR based on the inward-facing conformation of a prokaryotic transporter, MsbA (Ward et al., 2007) (PDB code: 3B5X).
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ABCC7 p.Glu1371Gln 22923500:220:209
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346 The state-dependent reactivity of the T338C CFTR that was observed in the current study is consistent with the finding by Beck et al. (2008) that MTSESafa; reacted slightly faster with a mutant with high open probability (T338C/ E1371Q CFTR) than with the T338C/wt CFTR.2 Mornon et al. (2009) created a homology model of the CFTR that was based on the inward-facing conformation of the prokaryotic transporter MsbA (PDB code 3B5X) (Ward et al., 2007).
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ABCC7 p.Glu1371Gln 22923500:346:232
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352 Wang and Linsdell (2012) studied reactions of the T338C/E1371Q CFTR with MTSESafa; and [Au(CN)2]afa; and suggested that the reaction of an engineered cysteine at position 338 with externally applied reagents was favored in the closed state.
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ABCC7 p.Glu1371Gln 22923500:352:56
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353 However, this observation conflicts with that by Beck et al. (2008), who reported that MTSESafa; reacted slightly faster with a double-mutant with high open probability (T338C/E1371Q CFTR) than with the T338C/wt CFTR.
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ABCC7 p.Glu1371Gln 22923500:353:179
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354 We observed reaction rates for MTSESafa; with T338C/wt and T338C/E1371Q CFTRs that were similar to those observed by Beck et al. (2008) (data not shown), which supports the idea that the T338C CFTR reacts in the open state.
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ABCC7 p.Glu1371Gln 22923500:354:68
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PMID: 22303012 [PubMed] Wang W et al: "Alternating access to the transmembrane domain of the ATP-binding cassette protein cystic fibrosis transmembrane conductance regulator (ABCC7)."
No. Sentence Comment
52 These two reporter cysteine substitutions were combined with mutations in the NBDs that affect ATP-dependent channel gating: K464A (NBD1) and E1371Q (NBD2).
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ABCC7 p.Glu1371Gln 22303012:52:142
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53 As discussed in detail in our recent study (22), these NBD mutations are expected either to decrease (K464A) or increase (E1371Q) overall CFTR channel activity via well characterized effects on ATP-dependent channel gating.
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ABCC7 p.Glu1371Gln 22303012:53:122
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58 In some experiments, channels bearing the NBD2 mutation E1371Q were used.
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ABCC7 p.Glu1371Gln 22303012:58:56
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69 As described above, channels bearing the E1371Q mutation were constitutively active, and whole cell currents carried by such channels were not further increased in amplitude by application of cAMP mixture, although they were sensitive to GlyH-101 (see supplemental Fig. S2).
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ABCC7 p.Glu1371Gln 22303012:69:41
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77 Specifically, following the lead of other groups (25, 26), we used the NBD1 mutation K464A to decrease overall channel activity, and the NBD2 mutation E1371Q to increase channel activity.
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ABCC7 p.Glu1371Gln 22303012:77:151
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78 Previously we showed that these mutations mimic the effects of decreasing channel activity with low cytoplasmic ATP concentrations (K464A) or by "locking" channels in the open state by treatment with 2 mM sodium pyrophosphate (E1371Q) (22).
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ABCC7 p.Glu1371Gln 22303012:78:227
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88 In both cases, the rate of modification by MTSES was significantly decreased by the K464A mutation and significantly increased by the E1371Q mutation, effects that are quantified in Fig. 1C.
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ABCC7 p.Glu1371Gln 22303012:88:134
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89 For modification of T338C, the mean modification rate constant was decreased ϳ2.4-fold in a K464A background and increased ϳ3.9-fold in E1371Q, whereas the modification rate constant for L102C was decreased by ϳ26% in K464A and increased ϳ2.0-fold in E1371Q.
X
ABCC7 p.Glu1371Gln 22303012:89:148
status: NEW
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ABCC7 p.Glu1371Gln 22303012:89:275
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90 As in our previous work (22), the effects of the E1371Q mutation were mimicked by locking channels open by treatment with 2 mM pyrophosphate (data not shown; ϳ3.9-fold increase for T338C and ϳ1.6-fold increase for L102C).
X
ABCC7 p.Glu1371Gln 22303012:90:49
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93 As shown in Fig. 2, application of a low concentration of Au(CN)2 - (2 ␮M) caused a rapid inhibition of current carried by both T338C and L102C.
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ABCC7 p.Glu1371Gln 22303012:93:134
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94 As with MTSES, the rate of modification by Au(CN)2 - was significantly decreased by the K464A mutation (by ϳ1.8-fold for T338C and ϳ3.4-fold for L102C) and significantly increased by the E1371Q mutation (by ϳ5.6-fold for T338C and ϳ1.8-fold for L102C), as well as by pyrophosphate treatment (by ϳ6.0-fold for T338C and ϳ2.0-fold for L102C; data not shown).
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ABCC7 p.Glu1371Gln 22303012:94:148
status: NEW
X
ABCC7 p.Glu1371Gln 22303012:94:199
status: NEW
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ABCC7 p.Glu1371Gln 22303012:94:275
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98 Expression of all CFTR constructs (except those containing the E1371Q mutation, see below) in baby hamster kidney cells led to the appearance of cAMP-activated whole cell currents that were inhibited by the specific CFTR inhibitor GlyH-101 (Fig. 3 and supplemental Fig. S2) and which were not observed in cells transfected with vector alone (supplemental Fig. S2).
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ABCC7 p.Glu1371Gln 22303012:98:63
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99 Expression of all E1371Q-CFTR constructs led to the appearance of constitutive, cAMP-insensitive but GlyH-101-inhibited whole cell currents (supplemental Fig. S2).
X
ABCC7 p.Glu1371Gln 22303012:99:18
status: NEW
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ABCC7 p.Glu1371Gln 22303012:99:205
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104 Fig. 4A shows examples of the rate of current inhibition in response to application of a common concentration of MTSES (1 ␮M) in T338C, T338C/K464A, and T338C/E1371Q.
X
ABCC7 p.Glu1371Gln 22303012:104:18
status: NEW
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ABCC7 p.Glu1371Gln 22303012:104:166
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109 The decline in current amplitude following Au(CN)2 - application has been fitted by a single exponential function. C, average modification rate constants(k)forAu(CN)2 - ,calculatedfromfitstodatasuchasthoseshowninAandB.AsterisksindicateasignificantdifferencefromthecysteinemutantsT338C and L102C (black bars) (p Ͻ 0.02).
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ABCC7 p.Glu1371Gln 22303012:109:165
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110 Data are mean from three or four patches. Alternating Access Model of CFTR MARCH 23, 2012ȂVOLUME 287•NUMBER 13 JOURNAL OF BIOLOGICAL CHEMISTRY 10159 fication (Fig. 4B) suggests an increase of ó3.7-fold in T338C/ K464A and a dramatic decrease of ϳ35-fold in T338C/E1371Q compared with T338C alone.
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ABCC7 p.Glu1371Gln 22303012:110:288
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111 Note that, because MTSES modification was so slow in T338C/E1371Q, the rate constant for modification of this construct was calculated from experiments using a higher concentration of MTSES (200 ␮M).
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ABCC7 p.Glu1371Gln 22303012:111:59
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114 Quantification of the rate constant for modification (Fig. 5C) suggests, for modification of T338C, an increase of ϳ5.7-fold in K464A and a decrease of ϳ150-fold in E1371Q, and for modification of L102C, an increase of ϳ2.3-fold in K464A and a decrease of ϳ2.7-fold in E1371Q.
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ABCC7 p.Glu1371Gln 22303012:114:177
status: NEW
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ABCC7 p.Glu1371Gln 22303012:114:293
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115 As with extracellular MTSES modification of T338C/E1371Q (Fig. 4), the rate constant for Au(CN)2 - modification of E1371Q channels was calculated from experiments using higher concentrations of Au(CN)2 - (100 ␮M).
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ABCC7 p.Glu1371Gln 22303012:115:50
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ABCC7 p.Glu1371Gln 22303012:115:115
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116 Changing Patterns of Accessibility Suggest Marker Cysteine Residues "Switch Sides" of Membrane during Gating-The effects of NBD mutations on the rate of modification of T338C and L102C by internal cysteine-reactive reagents (estimated from experiments on inside-out membrane patches) and by external cysteine-reactive reagents (estimated from whole cell current recording experiments) are compared in Fig. 6.
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ABCC7 p.Glu1371Gln 22303012:116:126
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120 In each panel, it can be seen that the rate of modification by internal MTSES and Au(CN)2 - increases in the order K464A Ͻ Cys-less Ͻ E1371Q, whereas modification by extracellular MTSES (in T338C) and Au(CN)2 - shows the opposite pattern, K464A Ͼ Cys-less Ͼ E1371Q.
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ABCC7 p.Glu1371Gln 22303012:120:146
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ABCC7 p.Glu1371Gln 22303012:120:177
status: NEW
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ABCC7 p.Glu1371Gln 22303012:120:282
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ABCC7 p.Glu1371Gln 22303012:120:293
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123 Given the known effects of the K464A and E1371Q mutations on ATP-dependent channel gating, it seems reasonable to us to infer that the factor causing this movement from one side of the membrane to the other is channel gating: when the channel is closed (enriched in the K464A constructs), accessibility of these cysteines from the outside is increased, and when the channel is open (enriched in the E1371Q constructs), their accessibility from the inside is increased.
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ABCC7 p.Glu1371Gln 22303012:123:41
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ABCC7 p.Glu1371Gln 22303012:123:399
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146 The rate of modification of L333C and K335C, also at the extracellular end of TM6, was also decreased in an E1371Q background, suggesting slower modification of open, compared with closed channels (26).
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ABCC7 p.Glu1371Gln 22303012:146:108
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152 L102C, like T338C, becomes apparently more accessible to internal cysteine reactive reagents in open channels (Fig. 6B), but is inaccessible to extracellular MTSES (Fig. FIGURE 4.
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ABCC7 p.Glu1371Gln 22303012:152:108
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157 Modification rate constant for T338C/E1371Q was quantified from experiments using a higher concentration of MTSES (200 ␮M).
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ABCC7 p.Glu1371Gln 22303012:157:37
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163 One apparent problem with this explanation is that a residue only slightly closer to the outer end of TM1 (R104C) is accessible to extracellular, but not intracellular MTS reagents (see above); the model shown in Fig. 7A should put this residue close to Thr-338.
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ABCC7 p.Glu1371Gln 22303012:163:37
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174 Modification rate constants for T338C/E1371Q and L102C/E1371Q were quantified from experiments using a higher concentration of Au(CN)2 - (100 ␮M).
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ABCC7 p.Glu1371Gln 22303012:174:38
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ABCC7 p.Glu1371Gln 22303012:174:55
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178 Each panel illustrates the change in modification rate constant for the same reporter cysteine (T338C in A and C, L102C in B and D) in three different backgrounds (K464A, Cys-less, and E1371Q), for modification by MTSES (A and B) or Au(CN)2 - (C and D) applied to the intracellular (●, inside) or extracellular (E, outside) side of the membrane.
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ABCC7 p.Glu1371Gln 22303012:178:185
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199 The dramatic decrease in modification rate for external MTSES and Au(CN)2 - seen in T338C/E1371Q (Figs. 4B, 5C, and 6) suggests that access to this narrow region from the extracellular solution is greatly decreased in open channels.
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ABCC7 p.Glu1371Gln 22303012:199:90
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54 These two reporter cysteine substitutions were combined with mutations in the NBDs that affect ATP-dependent channel gating: K464A (NBD1) and E1371Q (NBD2).
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ABCC7 p.Glu1371Gln 22303012:54:142
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55 As discussed in detail in our recent study (22), these NBD mutations are expected either to decrease (K464A) or increase (E1371Q) overall CFTR channel activity via well characterized effects on ATP-dependent channel gating.
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ABCC7 p.Glu1371Gln 22303012:55:122
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60 In some experiments, channels bearing the NBD2 mutation E1371Q were used.
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ABCC7 p.Glu1371Gln 22303012:60:56
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71 As described above, channels bearing the E1371Q mutation were constitutively active, and whole cell currents carried by such channels were not further increased in amplitude by application of cAMP mixture, although they were sensitive to GlyH-101 (see supplemental Fig. S2).
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ABCC7 p.Glu1371Gln 22303012:71:41
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80 Specifically, following the lead of other groups (25, 26), we used the NBD1 mutation K464A to decrease overall channel activity, and the NBD2 mutation E1371Q to increase channel activity.
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ABCC7 p.Glu1371Gln 22303012:80:151
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81 Previously we showed that these mutations mimic the effects of decreasing channel activity with low cytoplasmic ATP concentrations (K464A) or by "locking" channels in the open state by treatment with 2 mM sodium pyrophosphate (E1371Q) (22).
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ABCC7 p.Glu1371Gln 22303012:81:227
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95 As in our previous work (22), the effects of the E1371Q mutation were mimicked by locking channels open by treatment with 2 mM pyrophosphate (data not shown; b03;3.9-fold increase for T338C and b03;1.6-fold increase for L102C).
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ABCC7 p.Glu1371Gln 22303012:95:49
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103 Expression of all CFTR constructs (except those containing the E1371Q mutation, see below) in baby hamster kidney cells led to the appearance of cAMP-activated whole cell currents that were inhibited by the specific CFTR inhibitor GlyH-101 (Fig. 3 and supplemental Fig. S2) and which were not observed in cells transfected with vector alone (supplemental Fig. S2).
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ABCC7 p.Glu1371Gln 22303012:103:63
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117 Note that, because MTSES modification was so slow in T338C/E1371Q, the rate constant for modification of this construct was calculated from experiments using a higher concentration of MTSES (200 òe;M).
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ABCC7 p.Glu1371Gln 22303012:117:59
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121 As with extracellular MTSES modification of T338C/E1371Q (Fig. 4), the rate constant for Au(CN)2 afa; modification of E1371Q channels was calculated from experiments using higher concentrations of Au(CN)2 afa; (100 òe;M).
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ABCC7 p.Glu1371Gln 22303012:121:50
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ABCC7 p.Glu1371Gln 22303012:121:121
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126 In each panel, it can be seen that the rate of modification by internal MTSES and Au(CN)2 afa; increases in the order K464A b0d; Cys-less b0d; E1371Q, whereas modification by extracellular MTSES (in T338C) and Au(CN)2 afa; shows the opposite pattern, K464A b0e; Cys-less b0e; E1371Q.
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ABCC7 p.Glu1371Gln 22303012:126:152
status: NEW
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ABCC7 p.Glu1371Gln 22303012:126:294
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129 Given the known effects of the K464A and E1371Q mutations on ATP-dependent channel gating, it seems reasonable to us to infer that the factor causing this movement from one side of the membrane to the other is channel gating: when the channel is closed (enriched in the K464A constructs), accessibility of these cysteines from the outside is increased, and when the channel is open (enriched in the E1371Q constructs), their accessibility from the inside is increased.
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ABCC7 p.Glu1371Gln 22303012:129:41
status: NEW
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ABCC7 p.Glu1371Gln 22303012:129:399
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181 Modification rate constants for T338C/E1371Q and L102C/E1371Q were quantified from experiments using a higher concentration of Au(CN)2 afa; (100 òe;M).
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ABCC7 p.Glu1371Gln 22303012:181:38
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ABCC7 p.Glu1371Gln 22303012:181:55
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185 Each panel illustrates the change in modification rate constant for the same reporter cysteine (T338C in A and C, L102C in B and D) in three different backgrounds (K464A, Cys-less, and E1371Q), for modification by MTSES (A and B) or Au(CN)2 afa; (C and D) applied to the intracellular (cf;, inside) or extracellular (E, outside) side of the membrane.
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ABCC7 p.Glu1371Gln 22303012:185:185
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206 The dramatic decrease in modification rate for external MTSES and Au(CN)2 afa; seen in T338C/E1371Q (Figs. 4B, 5C, and 6) suggests that access to this narrow region from the extracellular solution is greatly decreased in open channels.
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ABCC7 p.Glu1371Gln 22303012:206:96
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PMID: 22234285 [PubMed] Wang W et al: "Conformational change opening the CFTR chloride channel pore coupled to ATP-dependent gating."
No. Sentence Comment
5 We also manipulated gating by introducing the mutations K464A (in NBD1) and E1371Q (in NBD2).
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ABCC7 p.Glu1371Gln 22234285:5:76
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6 The rate of modification of Q98C and I344C by both MTSES and Au(CN)2 - was decreased by K464A and increased by E1371Q, whereas modification of K95C and V345C was not affected.
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ABCC7 p.Glu1371Gln 22234285:6:111
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44 Both wild type CFTR and a variant in which all 18 endogenous cysteine residues have been substituted by other inside-out inside-out + ATP and PKA + ATP and PKA B) Q98C + MTSES (6 s) + MTSES (6 s) + MTSES (30 s) + MTSES (30 s) + MTSES (120 s) + MTSES (120 s) C) Q98C/E1371Q 200 pA 500 ms 250 pA 500 ms A) Voltage Protocol -50 -25 0 25 50 V (mV) 500 ms Fig. 1.
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ABCC7 p.Glu1371Gln 22234285:44:266
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48 (C) Raw currents carried by Q98C/E1371Q under these same conditions.
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ABCC7 p.Glu1371Gln 22234285:48:33
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49 Note that background (leak) currents are small in Q98C prior to addition of ATP and PKA, whereas in Q98C/E1371Q, as with all constructs bearing the E1371Q mutation, large constitutive currents are observed and are not further increased in amplitude by PKA and ATP (see also Refs.
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ABCC7 p.Glu1371Gln 22234285:49:105
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ABCC7 p.Glu1371Gln 22234285:49:148
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54 In (D) channels also had the NBD1 mutation K464A, and in (E) channels also had the NBD2 mutation E1371Q.
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ABCC7 p.Glu1371Gln 22234285:54:97
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60 Additional mutations were introduced into the cys-less background using the QuikChange site-directed mutagenesis -200 -150 -100 -50 0 I (pA) Time (s) K95C A) 1 mM ATP -180 -120 -60 0 Q98C -400 -300 -200 -100 0 -200 -150 -100 -50 0 I344C -300 -200 -100 0 -500 -400 -300 -200 -100 0 V345C -250 -200 -150 -100 -50 0 -300 -200 -100 0 -600 -400 -200 0 -750 -500 -250 0 -600 -400 -200 0 -800 -600 -400 -200 0 I (pA) Time (s) 20 µM MTSES 20 µM MTSES 20 µM MTSES200 µM MTSES C) 1 mM ATP + 2 mM PPi E) E1371Q (1 mM ATP) I (pA) Time (s) D) K464A (1 mM ATP) B) 10 µM ATP -100 -75 -50 -25 0 -200 -150 -100 -50 0 -80 -60 -40 -20 0 -80 -60 -40 -20 0 -120 -90 -60 -30 0 -80 -60 -40 -20 0 -60 -40 -20 0 -300 -200 -100 0 I (pA) Time (s) I (pA) Time (s) 0 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 system (Agilent Technologies, Santa Clara, CA, USA) and verified by DNA sequencing.
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ABCC7 p.Glu1371Gln 22234285:60:513
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63 In some experiments, CFTR channels bearing the NBD2 mutation E1371Q were used. This mutation results in constitutive, high levels of activity when expressed in BHK cells [23,24] (see Fig. 1C).
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ABCC7 p.Glu1371Gln 22234285:63:61
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95 In (B), NBD function has been altered by the mutations K464A (NBD1) and E1371Q (NBD2).
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ABCC7 p.Glu1371Gln 22234285:95:72
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105 Indeed, previous studies of pore accessibility changes have taken advantage of NBD mutations K464A and E1371Q [10,11].
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ABCC7 p.Glu1371Gln 22234285:105:103
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107 To alter channel gating by non-pharmacological means, we therefore combined the NBD mutations K464A and E1371Q with each of the four cysteine mutants described above.
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ABCC7 p.Glu1371Gln 22234285:107:104
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109 Constructs including the E1371Q mutation gave large, spontaneously active currents in BHK cells (Fig. 1C), as described previously, and likely have an open probability close to one [23,24].
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ABCC7 p.Glu1371Gln 22234285:109:25
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112 Conversely, the E1371Q mutation significantly increased the rate of MTSES modification at Q98C and I344C (3.0-3.1-fold increase in modification rate constant; Pb0.02) but had no effect on the rate of modification at K95C or V345C (P>0.25) (Fig. 3B).
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ABCC7 p.Glu1371Gln 22234285:112:16
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150 We therefore compared the rate of Au(CN)2 - inhibition in K95C, Q98C and I344C at two different ATP concentrations (10 μM and 1 mM), as well as in channels also bearing the NBD mutations K464A or E1371Q (Fig. 6).
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ABCC7 p.Glu1371Gln 22234285:150:202
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151 Quantification of the mean modification rate constant demonstrated that decreasing ATP -300 -200 -100 0 -400 -300 -200 -100 0 -200 -150 -100 -50 0 -60 -40 -20 0 -120 -80 -40 0 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 0 60 120 180 -100 -75 -50 -25 0 -90 -60 -30 0 -90 -60 -30 0 -120 -80 -40 0 A) 1 mM ATP I (pA) I (pA) I (pA) Time (s) 200 nM Au(CN)2 C) K464A (1 mM ATP) D) E1371Q (1 mM ATP) 2 µM Au(CN)2 200 nM Au(CN)2 I (pA) Time (s) Time (s) -200 -150 -100 -50 0 -90 -60 -30 0 -120 -80 -40 0 K95C Q98C I344C B) 10 µM ATP Time (s) Fig. 6. Timecourse of modification by Au(CN)2 - .
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ABCC7 p.Glu1371Gln 22234285:151:474
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153 Reporter cysteines (K95C, Q98C, and I344C as indicated) were examined in isolation (A, B) or combined with the NBD mutations K464A (C) or E1371Q (D).
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ABCC7 p.Glu1371Gln 22234285:153:138
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158 Conversely, the E1371Q mutation significantly increased the rate of Au(CN)2 - modification at Q98C and I344C (2.8-3.5-fold increase in modification rate constant; Pb0.01) but had no effect on the rate of modification at K95C (P>0.2) (Fig. 7).
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ABCC7 p.Glu1371Gln 22234285:158:16
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167 The rate of modification at these two sites was significantly decreased by lowering ATP concentration (Figs. 3A, 7) and by the K464A mutation (Figs. 3B, 7), and significantly increased by PPi (Fig. 3A) and the E1371Q mutation (Figs. 3B, 7).
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ABCC7 p.Glu1371Gln 22234285:167:210
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172 The very high apparent open probability of E1371Q mutant channels in BHK cells [23,24] means that constructs bearing this mutation likely give a good estimate of the rate of modification of open channels.
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ABCC7 p.Glu1371Gln 22234285:172:43
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PMID: 22042986 [PubMed] Bai Y et al: "Structural basis for the channel function of a degraded ABC transporter, CFTR (ABCC7)."
No. Sentence Comment
63 Fig. S5 shows the data for modification rates in the cysless/ E1371Q background.
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ABCC7 p.Glu1371Gln 22042986:63:62
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203 Given that the E1371Q mutant channel has an open probability of near unity in the presence of ATP, this result suggests that 1141C is readily accessible to MTSES but not to Texas red MTSEA+ in an open channel. Similar results were observed for cysteines substituted into positions 1148, 344, and 348 under the E1371Q background.
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ABCC7 p.Glu1371Gln 22042986:203:15
status: NEW
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ABCC7 p.Glu1371Gln 22042986:203:318
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224 To better assess the modification rate of an open channel, we introduced an additional E1371Q mutation, which abolishes ATP hydrolysis and thereby confers an open probability of 1 on the CFTR channel.
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ABCC7 p.Glu1371Gln 22042986:224:87
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225 Under the E1371Q background, MTSES readily modified 1141C resulting in a decrease of current (Fig. 6 D, red line), but Texas red MTSEA+ did not react with 1141C because it neither substantially decreased the macroscopic current (Fig. 6 D, orange line) nor prevented 1141C from subsequent modification by MTSES .
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ABCC7 p.Glu1371Gln 22042986:225:10
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PMID: 18417076 [PubMed] Cheung JC et al: "Molecular basis for the ATPase activity of CFTR."
No. Sentence Comment
91 We recently determined that the mutant E1371Q-CFTR retained approximately 30% of the wild type activity [34].
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ABCC7 p.Glu1371Gln 18417076:91:39
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124 For example, mutations of residues in the catalytic site (Site A, Fig. 1) that decrease ATPase activity, such as mutation of the Walker A lysine residue in NBD2 (K1250A) [29] and mutation of the putative catalytic base: E1371Q leads to a decrease in the rate of channel closing [51,52,55].
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ABCC7 p.Glu1371Gln 18417076:124:220
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PMID: 23378596 [PubMed] Hunt JF et al: "Cystic fibrosis transmembrane conductance regulator (ABCC7) structure."
No. Sentence Comment
118 One key observation supporting this model is that electrophysiological studies show that the E-to-Q mutation in NBD2 of CFTR (E1371Q) produces a very long-lived open state of the channel in the presence of ATP (Vergani et al. 2005; Gadsby et al. 2006; Hwang et al. 2009).
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ABCC7 p.Glu1371Gln 23378596:118:126
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295 Electrophysiological studies of the H1402A and E1371Q mutations in intact human CFTR support these inferences concerning catalytic geometry by showing that the H1402A (Kloch et al. 2010) and E1371Q (Vergani et al. 2005) mutations both greatly increase the lifetime of the open state of the CFTR chloride channel, presumably because they block ATP hydrolysis and stabilize ATP-sandwich heterodimer formed by hNBD1 and hNBD2.
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ABCC7 p.Glu1371Gln 23378596:295:47
status: NEW
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ABCC7 p.Glu1371Gln 23378596:295:191
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297 However, despite their similar influence on the gating properties of intact CFTR, the H1402A and E1371Q mutations have dramatically different effects on the stabilityand yield of hNBD2 during purification, with the first greatly improving yield compared to the second (X Zhao, S Atwell, JF Hunt, et al., unpubl.).
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ABCC7 p.Glu1371Gln 23378596:297:97
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298 In silico energetic calculations suggest that the H1402A mutation stabilizes isolated hNBD2 bound to Mg-ATP, while the E1371Q mutation destabilizes it (P Kumar, C Wang, JF Hunt, et al., unpubl.).
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ABCC7 p.Glu1371Gln 23378596:298:119
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PMID: 23442957 [PubMed] Gao X et al: "Cysteine scanning of CFTR's first transmembrane segment reveals its plausible roles in gating and permeation."
No. Sentence Comment
159 Although previous studies have provided evidence that these short-lived closures are ATP independent (43,44) and could result from voltage-dependent block of the pore by large anions from the cytoplasmic side of the channel (45), it is noted that these events are abundantly present in the double mutant L102C/E1371Q at both negative and positive membrane potentials in the absence of ATP (see Fig. S3).
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ABCC7 p.Glu1371Gln 23442957:159:310
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275 It is nevertheless interesting to note that in L102C/E1371Q-CFTR, the gate can open and close repeatedly even when the NBDs are in a dimeric configuration (Fig. S3).
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ABCC7 p.Glu1371Gln 23442957:275:53
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PMID: 23955087 [PubMed] Wang W et al: "Relative contribution of different transmembrane segments to the CFTR chloride channel pore."
No. Sentence Comment
46 In some cases, cysteine mutants were combined with the NBD2 mutation E1371Q, which we have used previously to abolish ATP-dependent channel gating and so isolate effects of cysteine reactive substances on open CFTR channels [41-43].
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ABCC7 p.Glu1371Gln 23955087:46:69
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107 Figure 2a shows the effect of internal MTSES on currents carried by some TM11 mutant channels in inside- Fig. 4 Effect of the E1371Q mutation on modification by internal and external MTSES.
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ABCC7 p.Glu1371Gln 23955087:107:126
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111 b Example whole cell currents recorded continuously at +30 mV for constitutively active T1115C/ E1371Q and S1118C/E1371Q channels.
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ABCC7 p.Glu1371Gln 23955087:111:96
status: NEW
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ABCC7 p.Glu1371Gln 23955087:111:114
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115 In both c and d, black bars represent the named mutants in a cys-less background, and white bars in a cys-less/E1371Q background, and asterisks indicate a significant difference between these two backgrounds (P<0.05).
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ABCC7 p.Glu1371Gln 23955087:115:111
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136 This suggestion was based in large part on the effects of the E1371Q mutation, which results in constitutively open CFTR channels, on side-dependent modification.
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ABCC7 p.Glu1371Gln 23955087:136:62
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137 As shown in Fig. 4a, c, the E1371Q mutation significantly accelerated the rate of modification of both T1115C and S1118C by intracellular MTSES, suggesting that these cysteines are more readily modified from the inside in open channels.
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ABCC7 p.Glu1371Gln 23955087:137:28
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138 In contrast, these channels bearing the E1371Q mutation were almost completely insensitive to external MTSES (Fig. 4b), suggesting that these cysteines are much more difficult to modify from the outside in open channels (Fig. 4d).
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ABCC7 p.Glu1371Gln 23955087:138:40
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PMID: 24671572 [PubMed] Linsdell P et al: "State-dependent blocker interactions with the CFTR chloride channel: implications for gating the pore."
No. Sentence Comment
42 Some experiments were carried out with channels containing the NBD2 mutation E1371Q, which this laboratory [25-27, 29, 36] and others [2, 3] have used to abolish ATP-dependent channel gating and lock CFTR channels in the open state.
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ABCC7 p.Glu1371Gln 24671572:42:77
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43 Where the properties of different channel pore variants (wild type, K95Q, I344K, V345K) have been directly compared in wild type and E1371Q backgrounds, the wild-type background is referred to as "1371E" to indicate that the endogenous glutamate residue is present at this position.
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ABCC7 p.Glu1371Gln 24671572:43:133
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61 (F) Example leak-subtracted macroscopic I-V relationships for E1371Q-CFTR in the presence of 1 mM ATP, recorded before (control) and after the addition of 100 bc;M and 1 mM Pt(NO2)4 2-to the intracellular solution.
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ABCC7 p.Glu1371Gln 24671572:61:62
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62 (G, H) Mean data from experiments with E1371Q channels under the same conditions used for wild-type channels in (C-E).
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ABCC7 p.Glu1371Gln 24671572:62:39
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63 (I-K) Mean values of KD (at 0 mV in I and at +50 mV in J) and zb4; (K) obtained from fits of KD-Vrelationships such as those shown in (E) and (H), for both wild type and E1371Q channels under different nucleotide conditions as indicated.
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ABCC7 p.Glu1371Gln 24671572:63:173
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76 (C) Mean effect of this same concentration of Pt(NO2)4 2- on macroscopic current amplitudes under different conditions (black filled circle, wild type with 1 mM ATP; white empty circle, wild type with 1 mM ATP plus 2 mM PPi; filled down-pointing triangle E1371Q with 1 mM ATP), estimated from experiments such as those shown in Fig. 1.
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ABCC7 p.Glu1371Gln 24671572:76:255
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92 Block was also strongly voltage dependent when the channel open state was stabilized using the E1371Q mutation (Fig. 1(F-H)), which results in channel open probabilities close to one under these conditions [27].
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ABCC7 p.Glu1371Gln 24671572:92:95
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93 Furthermore, in the E1371Q mutant, the blocking effects of Pt(NO2)4 2- were independent of either ATP concentration or the addition of 2 mM PPi (Fig. 1).
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ABCC7 p.Glu1371Gln 24671572:93:20
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95 Block of E1371Q was strongly voltage dependent under all conditions (Fig. 1(K)).
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ABCC7 p.Glu1371Gln 24671572:95:9
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98 The strongly voltage-dependent effects of this concentration of Pt(NO2)4 2- on unitary current amplitude (Fig. 2(B)) closely resemble the effects of this concentration of blocker on macroscopic wild-type currents following treatment with PPi, or in E1371Q mutant channels (Fig. 2(C, D)), whereas they are considerably weaker and more voltage-dependent than effects on macroscopic wild-type currents in the absence of PPi (Fig. 2(C, D)).
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ABCC7 p.Glu1371Gln 24671572:98:249
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106 When channel closure is inhibited using PPi or the E1371Q mutation, the effect on Cl-permeation is effectively isolated (Figs. 1 and 2).
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ABCC7 p.Glu1371Gln 24671572:106:51
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108 The effects of mutations in this region on the open-channel blocking effect of Pt(NO2)4 2- , isolated using E1371Q-containing channels, are shown in Fig. 3.
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ABCC7 p.Glu1371Gln 24671572:108:108
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110 Interestingly, not only blocker binding affinity (Fig. 3(D)) but also blocker voltage dependence (Fig. 3(E)) appeared correlated with the number of positively charged lysine side chains lining the inner vestibule of the pore; both I344K/E1371Q and V345K/E1371Q gave very strong, very strongly voltage-dependent block (Fig. 3(A, C-E)).
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ABCC7 p.Glu1371Gln 24671572:110:237
status: NEW
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ABCC7 p.Glu1371Gln 24671572:110:254
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111 To further investigate the relationship between Pt(NO2)4 2- block and gating, block of macroscopic currents was compared in 1371E (wild type) and E1371Q backgrounds (Fig. 4).
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ABCC7 p.Glu1371Gln 24671572:111:146
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112 The weak blocking effects of Pt(NO2)4 2- on K95Q-containing channels appeared independent of the presence of the E1371Q mutation (Fig. 4(B)), suggesting that no high-affinity Pt(NO2)4 2-binding site exists outside of the channel pore.
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ABCC7 p.Glu1371Gln 24671572:112:113
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113 In contrast, the strong inhibitory effects of Pt(NO2)4 2- on both I344K- and V345K-containing channels were observed in both E1371Q and 1371E backgrounds (Fig. 4(B)).
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ABCC7 p.Glu1371Gln 24671572:113:125
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114 Most strikingly, however, the very strong voltage dependence of block seen in both I344K/E1371Q and V345K/E1371Q (Fig. 3) was not observed in I344K/1371E and V345K/1371E channels that were allowed to open and close normally; instead, block was very strong but almost completely voltage-independent (Fig. 4).
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ABCC7 p.Glu1371Gln 24671572:114:89
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ABCC7 p.Glu1371Gln 24671572:114:106
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115 In many ways, these results with I344K and V345K recapitulate the results observed when comparing wild type and E1371Q channels (Fig. 1); block is weaker in E1371Q-containing channels (Fig. 4(C)), and blocker voltage dependence is greatly decreased (Fig. 4(D)).
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ABCC7 p.Glu1371Gln 24671572:115:112
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ABCC7 p.Glu1371Gln 24671572:115:157
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116 In fact, the discrepancy between 1371E and E1371Q channels, both in blocker affinity (Fig. 4(E)) and blocker voltage dependence (Fig. 4(F)), was greater when more fixed positive charges were present in the pore inner vestibule.
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ABCC7 p.Glu1371Gln 24671572:116:43
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123 Effect of extracellular Clon Pt(NO2)4 2- block As a consequence of the striking difference in voltage-dependence of block of I344K and V345K-containing channels studied in 1371E (Fig. 4) or E1371Q backgrounds (Fig. 3), there was an unusual "cross-over" effect in the relationship between the KD for Pt(NO2)4 2- block and voltage (Fig. 4(B)), suggesting that block is stronger in 1371E than in E1371Q channels at positive voltages, but weaker in 1371E at the most negative voltages studied.
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ABCC7 p.Glu1371Gln 24671572:123:190
status: NEW
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ABCC7 p.Glu1371Gln 24671572:123:393
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126 Under these conditions, cross-over of the KD-voltage relationship was observed for wild type and I344K channels, whereas for V345K channels block was now stronger in E1371Q channels at all voltages studied.
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ABCC7 p.Glu1371Gln 24671572:126:166
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128 (A) Example leak-subtracted macroscopic I-V relationships for the different E1371Q-containing CFTR constructs named, recorded before (control) and after the addition of Pt(NO2)4 2-to the intracellular solution at the concentrations indicated.
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ABCC7 p.Glu1371Gln 24671572:128:76
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131 (D, E) Mean values of KD (at 0 mV) and zb4; obtained from fits of KD-V relationships such as those shown in (C), as a function of the number of positively charged lysine side chains lining the inner vestibule of the pore in different channel constructs. Asterisks indicate a significant difference from wild type (E1371Q) (P<0.005).
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ABCC7 p.Glu1371Gln 24671572:131:317
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133 However, whereas the Pt(NO2)4 2- -induced decrease in PO could easily be studied at the single-channel level at depolarized voltages at which open-channel blocking effects are practically absent (Figs. 2 and 5), the discrepancy between the KD measured in 1371E and E1371Q channels shown in Fig. 6(C) was most striking at hyperpolarized voltages at which effects on single-channel current amplitudes (as reflected by effects on E1371Q channels) are expected to be very strong, and could not therefore be investigated directly using single-channel recordings.
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ABCC7 p.Glu1371Gln 24671572:133:265
status: NEW
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ABCC7 p.Glu1371Gln 24671572:133:427
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135 Under these ionic conditions, the E1371Q mutation increased the apparent affinity of block (Fig. 7(A, B)), an effect that was especially strong in I344K and V345K channels and at hyperpolarized voltages.
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ABCC7 p.Glu1371Gln 24671572:135:34
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136 This contrasts with what was found under high [Cl- ] conditions, where the E1371Q mutation decreased the affinity of block, especially in I344K and V345K (Fig. 4(C)).
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ABCC7 p.Glu1371Gln 24671572:136:75
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137 The E1371Q mutation also increased the voltage dependence of block under low [Cl- ] Fig. 4 Gating-dependent Pt(NO2)4 2- block in pore mutant forms of CFTR.
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ABCC7 p.Glu1371Gln 24671572:137:4
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139 (B) Mean KD values obtained from such data as described in Figs. 1 and 3 (white empty circle), compared to data from the same channel mutants in an E1371Q background (black filled circle) (taken from Fig. 3(C)).
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ABCC7 p.Glu1371Gln 24671572:139:148
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140 (C, D) Comparison of mean KD (at 0 mV) and zb4; values estimated for different channel variants in an E1371Q background (black bars) versus a 1371E background (grey bars).
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ABCC7 p.Glu1371Gln 24671572:140:105
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141 Asterisks indicate a significant difference from the same channel variant in an E1371Q background (P<0.0005).
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ABCC7 p.Glu1371Gln 24671572:141:80
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142 (E, F) Direct quantification of the effect of different E1371 background on KD (at 0 mV) and zb4;, evaluated as the mean value in a 1371E background as a fraction of that in an E1371Q background, and plotted relative to the number of positively charged lysine side chains lining the inner vestibule of the pore in different channel constructs. Asterisks indicate a significant difference from the value estimated for wild type (P<0.05).
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ABCC7 p.Glu1371Gln 24671572:142:180
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146 However, [Cl- ] has little effect on the voltage dependence of block (Fig. 7(E)), which is already very strong in I344K/E1371Q and V345K/E1371Q channels (Figs. 4(D) and 7(C)).
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ABCC7 p.Glu1371Gln 24671572:146:120
status: NEW
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ABCC7 p.Glu1371Gln 24671572:146:137
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159 Multiple effects of Pt(NO2)4 2- on conductance and gating The open-channel blocking effects of Pt(NO2)4 2are the easiest to isolate and observe-these effects can be seen from the effect of Pt(NO2)4 2- on single-channel current amplitude (Fig. 2(A, B)) and are also isolated in channels in which the open state has been stabilized, either using PPi to interrupt normal ATP-dependent gating (Fig. 1) or using the ATP hydrolysis-defective E1371Q mutant (Figs. 1, 3, and 6).
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ABCC7 p.Glu1371Gln 24671572:159:436
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162 (A, B) Example leak-subtracted macroscopic I-V relationships for the different CFTR constructs named, either in an E1371Q background (A) or a 1371E background (B), with a low (4 mM) [Cl- ] extracellular solution.
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ABCC7 p.Glu1371Gln 24671572:162:115
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176 In each of these situations, block at very negative voltages appears anomalously weak in 1371E channels when compared to E1371Q, hinting that Pt(NO2)4 2- block might actually be associated with an increase in PO under these conditions.
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ABCC7 p.Glu1371Gln 24671572:176:121
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181 In each panel, black bars represent an E1371Q background and grey bars a 1371E background; asterisks indicate a significant difference from the same channel variant in an E1371Q background (P<0.05); and (in D and E) daggers represent a significant difference between high and low external [Cl- ] conditions (P<0.05).
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ABCC7 p.Glu1371Gln 24671572:181:39
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ABCC7 p.Glu1371Gln 24671572:181:171
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193 Effects on open channels are isolated in E1371Q channels.
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ABCC7 p.Glu1371Gln 24671572:193:41
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195 Inhibitory effects on PO are due to effects on closed channels (increasing interburst duration), and so are most prominent in macroscopic current recordings under conditions in which open-channel block is relatively weak (e.g., at positive voltages), leading to the largest discrepancy in overall blocking effects between 1371E and E1371Q channels (Figs. 1, 2(C), and 4(B)).
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ABCC7 p.Glu1371Gln 24671572:195:332
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198 Effect of extracellular Cl- Increasing extracellular [Cl- ] weakens Pt(NO2)4 2- block of open E1371Q channels (Fig. 7(D)), as described previously for wild-type CFTR [11, 35].
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ABCC7 p.Glu1371Gln 24671572:198:94
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200 Interestingly, this apparent knock-off effect is greatly strengthened in I344K/E1371Q and V345K/E1371Q (Fig. 7(D)), suggesting Fig. 8 Schematic summary of the effects of Pt(NO2)4 2- .
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ABCC7 p.Glu1371Gln 24671572:200:79
status: NEW
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ABCC7 p.Glu1371Gln 24671572:200:96
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203 Experiments carried out on E1371Q channels are assumed to isolate effects on open channels (to the right of the dotted line in (A)).
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ABCC7 p.Glu1371Gln 24671572:203:27
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206 Block of macroscopic 1371E channels is generally stronger than that of E1371Q channels at high extracellular [Cl- ] (Fig. 1(E) and 4(B)), whereas block is generally weaker in 1371E channels at low extracellular [Cl- ] (Fig. 6(C)).
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ABCC7 p.Glu1371Gln 24671572:206:71
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PMID: 25143385 [PubMed] El Hiani Y et al: "Metal bridges illuminate transmembrane domain movements during gating of the cystic fibrosis transmembrane conductance regulator chloride channel."
No. Sentence Comment
49 In some cases, cysteine mutants were combined with the NBD2 mutation E1371Q, which we (7-9) and others (12, 26) have used to abolish ATP-dependent channel gating and lock CFTR channels in the open state.
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ABCC7 p.Glu1371Gln 25143385:49:69
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50 In our expression system, the open probability of channels bearing the E1371Q mutation is b0e;95% (7).
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ABCC7 p.Glu1371Gln 25143385:50:71
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82 To confirm this apparent state dependence of Cd2af9; bridge formation, we combined selected single and double cysteine mutants with the E1371Q mutation in NBD2 that results in constitutively open channels in our expression system (see "Experimental Procedures").
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ABCC7 p.Glu1371Gln 25143385:82:139
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83 As shown in Fig. 5, all E1371Q-containing channels tested were only weakly sensitive to inhibition by Cd2af9; , resulting in a significant increase in Ki both in single cysteine (I344C, M348C, S1141C) and in double cysteine (I344C/S1141C, Fig. 5, A-C; M348C/S1141C, Fig. 5, A, D, and E) mutant channels.
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ABCC7 p.Glu1371Gln 25143385:83:24
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84 However, the effect of the E1371Q mutation was greater in the double cysteine mutants; this gating mutation increased Ki 30-fold in I344C/S1141C (Fig. 5C) and 2500-fold in M348C/S1141C (Fig. 5E).
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ABCC7 p.Glu1371Gln 25143385:84:27
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90 Conformational Changes during CFTR Channel Opening OCTOBER 10, 2014ߦVOLUME 289ߦNUMBER 41 JOURNAL OF BIOLOGICAL CHEMISTRY 28151 ing single cysteine mutants (Figs. 3 and Fig. 5, C and E), in E1371Q mutant channels, the Ki for the double cysteine mutants was not significantly different from the single cysteine mutants (Fig. 5, B-E).
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ABCC7 p.Glu1371Gln 25143385:90:202
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109 However, we found that constitutively open K95C/E1371Q channels were insensitive to Cd2af9; at concentrations up to 100 òe;M (Fig. 6B), as were K95C channels following treatment with 2 mM PPi (data not shown), inconsistent with an effect of Cd2af9; on Clafa; conductance.
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ABCC7 p.Glu1371Gln 25143385:109:48
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110 Instead, these results suggest that Cd2af9; binding to K95C results in a small but significant stabilization of the channel open state, an effect that is not observed in E1371Q channels that are already open almost 100% of the time (7).
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ABCC7 p.Glu1371Gln 25143385:110:173
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116 As with K95C itself, the stimulatory effects of Cd2af9; on K95C/S1141C were abolished by the E1371Q mutation (Fig. 6C) or by treatment with PPi (data not shown), suggesting that the observed effects of Cd2af9; are due to an increase in channel open probability and a stabilization of the channel open state.
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ABCC7 p.Glu1371Gln 25143385:116:96
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145 Thus, if channels are stabilized in the open state, either using PPi to manipulate NBD-driven gating (Fig. 4) or using E1371Q channels that cannot hydrolyze ATP (Fig. 5), the inhibitory effects of Cd2af9; are greatly reduced, suggesting that Cd2af9; binds more strongly to the closed state than to the open state.
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ABCC7 p.Glu1371Gln 25143385:145:119
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151 Error bars indicate the means afe; S.E. from 3-7 patches. Conformational Changes during CFTR Channel Opening 28154 JOURNAL OF BIOLOGICAL CHEMISTRY VOLUME 289ߦNUMBER 41ߦOCTOBER 10, 2014 at SEMMELWEIS UNIV OF MEDICINE on December 4, that appears to bind Cd2af9; b;2500 times more strongly in channels that are gating normally as compared with constitutively open E1371Q channels (Fig. 5).
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ABCC7 p.Glu1371Gln 25143385:151:383
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153 However, when the channel is open, these two cysteines do not appear to coordinate Cd2af9; at all because the apparent Cd2af9; affinity in M348C/S1141C/ E1371Q channels appears the same as in M348C/E1371Q or S1141C/E1371Q (Fig. 5, D and E).
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ABCC7 p.Glu1371Gln 25143385:153:159
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ABCC7 p.Glu1371Gln 25143385:153:204
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ABCC7 p.Glu1371Gln 25143385:153:221
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155 Because this effect was abolished in E1371Q channels (Fig. 6), it appears to reflect a Cd2af9; bridge-induced change in channel gating rather than channel conductance.
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ABCC7 p.Glu1371Gln 25143385:155:37
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163 Effect of the E1371Q mutation on the effects of Cd2d19; on single and double cysteine mutant channels in TMs 6 and 12.
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ABCC7 p.Glu1371Gln 25143385:163:14
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164 A, sample time courses and I-V curves illustrating the low Cd2af9; sensitivity of constitutively active I344C/S1141C/E1371Q (left panels) and M348C/S1141C/E1371Q (right panels) channels in inside-out patches. Experiments were performed as described in the legend for Fig. 2.
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ABCC7 p.Glu1371Gln 25143385:164:120
status: NEW
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ABCC7 p.Glu1371Gln 25143385:164:158
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166 B-E, mean fractional current remaining following the addition of differentconcentrationsofCd2af9; (BandD)andmeanKi valuesforthesingleanddoublecysteinemutantslisted(CandE).InCandE,blackbarsindicatechannels gating normally, and gray bars indicate the corresponding cysteine mutants with the E1371Q mutation; asterisks indicate a significant difference between the two for the same cysteine constructs (p b0d; 0.02).
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ABCC7 p.Glu1371Gln 25143385:166:292
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179 B, concentration-dependent increases in current amplitude in K95C were not observed in K95C/E1371Q.
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ABCC7 p.Glu1371Gln 25143385:179:92
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181 C, Cd2af9; causes a significantly greater increase in K95C/S1141C current amplitude as compared with K95C (p b0d; 0.0001); this increase is not observed in K95C/S1141C/E1371Q channels.
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ABCC7 p.Glu1371Gln 25143385:181:174
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PMID: 25277268 [PubMed] Broadbent SD et al: "The cystic fibrosis transmembrane conductance regulator is an extracellular chloride sensor."
No. Sentence Comment
92 We then examined whether the ATP hydrolysis-deficient CFTR mutant, E1371Q [38], could sense [Cl- ]o with the expectation that it would not.
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ABCC7 p.Glu1371Gln 25277268:92:67
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93 Like WT CFTR exposed to AMP-PNP, the E1371Q mutant channels display extended open channel bursts in the presence of ATP [16, 23, 40].
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ABCC7 p.Glu1371Gln 25277268:93:37
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94 In our experiments, E1371Q CFTR expressed in HEK cells was constitutively active and large currents were detected without prior stimulation with FSK (Fig. 3d (i) (first set of fWCR current traces), and 3e), which agrees with previous work performed in baby hamster kidney (BHK) cells [27, 42, 46].
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ABCC7 p.Glu1371Gln 25277268:94:20
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95 The reason for this constitutive activity of E1371Q is unclear and it contrasts with the behaviour of wild type CFTR and other mutants (except DeltaR-CFTR) previously investigated in our laboratories using the BHK and HEK cell expression systems [46].
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ABCC7 p.Glu1371Gln 25277268:95:45
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96 Exposing E1371Q CFTR (without FSK) to an increase in [Cl- ]o caused only a small stimulation of channel activity (21.9&#b1;14.1 %, n=6; Fig. 3f).
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ABCC7 p.Glu1371Gln 25277268:96:9
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97 Surprisingly in view of the WT CFTR data with AMP-PNP, if E1371Q CFTR channels were first phosphorylated with FSK (which itself had no significant effect on the size of the whole cell currents (Fig. 3d (ii) (second set of fWCR traces)) and Table 1), [Cl- ]o sensing was restored (174.5&#b1;56.2 % stimulation, n=8; Fig. 3d, e and f).
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ABCC7 p.Glu1371Gln 25277268:97:60
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98 To confirm the role of phosphorylation in [Cl- ]o sensing, we reduced the endogenous phosphorylation of E1371Q channels by removing ATP/GTP from the intracellular solution prior to stimulation with FSK, which significantly reduced basal E1371Q CFTR currents (No ATP/GTP: -186&#b1; 122 pA/pF n=8 vs ATP/GTP: -1,259&#b1;433 pA/pF, n=8, P<0.001).
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ABCC7 p.Glu1371Gln 25277268:98:104
status: NEW
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ABCC7 p.Glu1371Gln 25277268:98:237
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99 Under these conditions, the E1371Q CFTR channels failed to respond to changes in [Cl- ]o even in the presence of FSK (Fig. 3f), consistent with the idea that only phosphorylated channels are gated by [Cl- ]o.
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ABCC7 p.Glu1371Gln 25277268:99:28
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100 Since E1371Q CFTR is hydrolysis-deficient [38], we expected that [Cl- ]o sensing by the mutant would not be affected by AMP-PNP.
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ABCC7 p.Glu1371Gln 25277268:100:6
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101 However, unexpectedly, we found that the ability of FSK-stimulated E1371Q CFTR channels to respond to changes in [Cl- ]o was markedly reduced by the non-hydrolysable ATP analogue, just like WT CFTR (Fig. 3f).
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ABCC7 p.Glu1371Gln 25277268:101:67
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102 To check that the restoration of [Cl- ]o sensing by E1371Q CFTR after phosphorylation (Fig. 3d) was due to an C A B WT R899Q VEC WT (i) (ii) (iii) (iv) (i) (ii) (iii) (iv) R899Q Fig. 2 Arginine residue 889 in extracellular loop 4 of CFTR is essential for [Cl- ]o sensing.
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ABCC7 p.Glu1371Gln 25277268:102:52
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110 **p<0.01 compared to WT CFTR interaction of Cl-with the extracellular domain of CFTR, we also studied the double-mutant R899Q-E1371Q.
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ABCC7 p.Glu1371Gln 25277268:110:127
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111 Figure 3f shows that [Cl- ]o sensing by the double mutant in the presence of FSK was significantly reduced compared to E1371Q CFTR under the same conditions, confirming that phosphorylated E1371Q CFTR channels respond to changes in [Cl- ]o via R899 in ECL4.
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ABCC7 p.Glu1371Gln 25277268:111:119
status: NEW
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ABCC7 p.Glu1371Gln 25277268:111:189
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112 To explore the role of phosphorylation further, we studied the effect of deleting the R domain from CFTR (residues 634-836) [12, 7], which removes all the major PKA/PKC Table 1 Summary of the FSK stimulation of whole cell currents and Erev shifts observed with the CFTR constructs used in this study CFTR Construct n FSK Stimulation (%&#b1;SEM) Erev shift (mV&#b1;SEM) WT (50 bc;M ATP) 5 180&#b1;96 15.0&#b1;3.6 WT (100 bc;M ATP) 6 12,000&#b1;6,000 15.2&#b1;3.0 WT (300 bc;M ATP) 8 1,200&#b1;600 17.0&#b1;3.0 WT (1 mM ATP) 24 13,000&#b1;6,000 23.7&#b1;1.8 WT (1.3 mM ATP) 9 1,400&#b1;900 16.7&#b1;2.6 WT (2 mM ATP) 24 6,100&#b1;5,300 16.7&#b1;1.6 WT (5 mM ATP) 7 1,600&#b1;1,000 20.1&#b1;4.4 WT (50 bc;M ATP + 50 bc;M P-ATP) 7 224&#b1;130 15.3&#b1;1.0 WT + Genistein 4 7,600&#b1;5,200 26.1&#b1;5.4 WT + AMP-PNP 5 2,800&#b1;2,500 21.8&#b1;5.5 WT (3 mM MgCl2) 7 28,000&#b1;17,000 18.3&#b1;3.1 R104Q 5 4,600&#b1;1,600 28.6&#b1;4.7 K114C 5 12,000&#b1;6,700 29.2&#b1;3.0 R117Q 4 33,000&#b1;20,000 30.1&#b1;3.4 K329A 5 13,000&#b1;10,000 33.7&#b1;2.1 R334Q 9 13,000&#b1;6,700 27.3&#b1;2.9 K335A 5 3,200&#b1;1,500 20.8&#b1;7.1 W401G 7 2,600&#b1;1,800 18.5&#b1;4.8 Delta-R (No Stim) 5 - 25.1&#b1;2.7 Delta-R (No FSK, Genistein) 5 140&#b1;13 22.7&#b1;3.0 Delta-R (FSK, No Genistein) 4 89&#b1;14 15.6&#b1;6.0 Delta-R (FSK + Genistein) 6 639&#b1;432 25.1&#b1;4.9 Delta-R-E1371S (No FSK) 9 - 21.4&#b1;4.8 Delta-R-E1371S (FSK) 4 2,600&#b1;1,400 15.3&#b1;4.7 K892Q 7 16,000&#b1;9,500 36.8&#b1;4.8 R899E 4 1,200&#b1;400 25.0&#b1;2.7 R899K 4 1,600&#b1;900 26.6&#b1;2.9 R899Q 7 5,400&#b1;2,800 30.0&#b1;1.3 R899Q + AMP-PNP 4 72,000&#b1;50,000 15.2&#b1;2.8 R899Q-E1371Q (No FSK) 4 - 18.4&#b1;5.9 R899Q-E1371Q (FSK) 6 107&#b1;48 15.6&#b1;3.0 R1128Q 6 14,000&#b1;6,100 41.1&#b1;4.2 Y1219G 6 3,200&#b1;2,500 19.2&#b1;3.3 E1371Q (No FSK) 6 - 25.5&#b1;3.5 E1371Q (FSK) 8 -28&#b1;9 22.3&#b1;4.0 E1371Q (FSK, No ATP, No GTP) 8 270&#b1;130 19.4&#b1;4.5 E1371Q + AMP-PNP (No FSK) 4 - 24.7&#b1;6.5 E1371Q + AMP-PNP (FSK) 8 180&#b1;170 17.4&#b1;4.0 Vector Control 4 15&#b1;38 - FSK stimulation was calculated as the percentage increase in current density at -60 mV from the Erev, after 5-min exposure to 10 bc;M FSK.
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ABCC7 p.Glu1371Gln 25277268:112:1659
status: NEW
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ABCC7 p.Glu1371Gln 25277268:112:1698
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ABCC7 p.Glu1371Gln 25277268:112:1814
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ABCC7 p.Glu1371Gln 25277268:112:1847
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ABCC7 p.Glu1371Gln 25277268:112:1885
status: NEW
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ABCC7 p.Glu1371Gln 25277268:112:1941
status: NEW
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ABCC7 p.Glu1371Gln 25277268:112:1984
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120 Based on our previous result that the phosphorylated, hydrolysis-deficient, E1371Q mutant could sense [Cl- ]o (Fig. 3f), we predicted that preventing ATP hydrolysis at ATP binding site 2 of DeltaR-CFTR would have no effect on [Cl- ]o sensing.
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ABCC7 p.Glu1371Gln 25277268:120:76
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121 We tested this prediction by using DeltaR-CFTR with the E1371S mutation, which like E1371Q CFTR is hydrolysis defective [8] and found, unexpectedly, that the double-mutant CFTR channels did not respond to changes in [Cl- ]o (external Cl- stimulation; no FSK/genistein: 0.0&#b1;7.0 %, n=9; with FSK/genistein: 16.7&#b1; 7.7 %, n=4) (Fig. 4c-e).
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ABCC7 p.Glu1371Gln 25277268:121:84
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122 Role of ATP binding and ATPase activity of the NBDs in [Cl- ]o sensing by CFTR Figures 3 and 4 suggest that the role of ATP hydrolysis in [Cl- ]o sensing by CFTR is complex; e.g. AMP-PNP abolishes WT + AMP-PNP 4 nA 100 ms (i) (ii) (iii) (iv) E1371Q (FSK) 100 ms 30 nA (i) (ii) (iii) (iv) E1371Q (FSK) WT + AMP-PNP A E D C B F Fig. 3 Gating of CFTR by [Cl- ]o requires ATP hydrolysis and phosphorylation.
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ABCC7 p.Glu1371Gln 25277268:122:242
status: NEW
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ABCC7 p.Glu1371Gln 25277268:122:288
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125 b, d Representative fWCR current recordings measured between &#b1;100 mV in 20 mV steps from HEK cells transfected with WT CFTR plus AMP-PNP and E1371Q CFTR, as indicated. The current traces are from the top down: (i) unstimulated in 155.5 mM [Cl- ]o, (ii) forskolin (FSK)-stimulated in 155.5 mM [Cl- ]o, (iii) FSK-stimulated in 35.5 mM [Cl- ]o and (iv) FSK-stimulated in 155.5 mM [Cl- ]o. Dotted line to the right of the current traces indicates zero current level.
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ABCC7 p.Glu1371Gln 25277268:125:145
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126 c, e Representative I-V plots for the data presented in b and d. f Percentage stimulation of either basal or FSK-activated currents by [Cl- ]o for WT CFTR (n=24), the ECL4 mutant R899Q, the hydrolysis-deficient mutant E1371Q and the double-mutant R899Q-E1371Q (see Fig. 1) under different conditions as indicated (n=4-8).
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ABCC7 p.Glu1371Gln 25277268:126:218
status: NEW
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ABCC7 p.Glu1371Gln 25277268:126:253
status: NEW
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128 *p<0.05, **p<0.01, ***p<0.001 between indicated datasets [Cl- ]o sensing by WT CFTR, whereas the E1371Q mutation has no effect.
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ABCC7 p.Glu1371Gln 25277268:128:98
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143 The current traces are from the top down: (i) unstimulated in 155.5 mM [Cl- ]o, (ii) unstimulated in 35.5 mM [Cl- ]o and (iii) unstimulated in 155.5 mM [Cl- ]o. Dotted line to the right of the current traces indicates zero current level. b, d Representative I-V plots for the data presented in a and c. e Percentage current stimulation by [Cl- ]o for WT CFTR (n=24) and for DeltaR and DeltaR-E1371Q mutants (see Fig. 1) under unstimulated (No Stim) or after exposure to a combination of forskolin and genistein (FSK/Genistein).
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ABCC7 p.Glu1371Gln 25277268:143:392
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166 First, cAMP/PKA-dependent phosphorylation is required for the response in WTand E1371Q CFTR channels.
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ABCC7 p.Glu1371Gln 25277268:166:80
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172 Secondly, in phosphorylated CFTR channels, impairing ATP hydrolysis using the E1371Q mutation did not prevent [Cl- ]o sensing. This result implies that chloride sensing does not lead to a change in channel gating simply via a change in ATPase activity.
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ABCC7 p.Glu1371Gln 25277268:172:78
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174 The fact that [Cl- ]o sensing is impaired in phosphorylated E1371Q CFTR channels when AMP-PNP is present, is probably explained by AMP-PNP substituting for ATP in its actions.
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ABCC7 p.Glu1371Gln 25277268:174:60
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175 As Fig. 5f shows, raising cytosolic [ATP] to 2 mM, or above, abolished sensing. This is why AMP-PNP effects are mimicked by ATP, but not by the E1371Q mutation.
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ABCC7 p.Glu1371Gln 25277268:175:144
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176 In this context, it is important to remember that although the E1371Q mutation substantially reduces ATP hydrolysis (~70 %, [38]), the channel is still gated by ATP, even in a DeltaR background [12, 7, 8].
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ABCC7 p.Glu1371Gln 25277268:176:63
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PMID: 25673337 [PubMed] Rubaiy HN et al: "Location of a permeant anion binding site in the cystic fibrosis transmembrane conductance regulator chloride channel pore."
No. Sentence Comment
41 In contrast, the F337A mutation disrupts the normal Fig. 1 Block by intracellular Au(CN)2 - is weakened in K95Q/E1371Q channels. Example macroscopic IV relationships for E1371Q (a) and K95Q/E1371Q (b) CFTR channels recorded before (control) and after the addition of Au(CN)2 - to the intracellular (bath) solution at the concentrations stated.
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ABCC7 p.Glu1371Gln 25673337:41:112
status: NEW
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ABCC7 p.Glu1371Gln 25673337:41:170
status: NEW
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ABCC7 p.Glu1371Gln 25673337:41:190
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48 In order to isolate anion effects on Cl-permeation from effects on channel gating [17, 24], experiments were carried out on constitutively active E1371Q-CFTR channels [22, 24].
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ABCC7 p.Glu1371Gln 25673337:48:146
status: NEW
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49 Additional mutations were introduced into this E1371Q background using the QuikChange site-directed mutagenesis system (Agilent Technologies, Santa Clara, CA, USA) and verified by DNA sequencing.
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ABCC7 p.Glu1371Gln 25673337:49:47
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50 Macroscopic E1371Q-CFTR current-voltage (I-V) relationships were recorded using depolarizing voltage ramps during patch clamp recordings from inside-out membrane patches, as described in detail recently [24].
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ABCC7 p.Glu1371Gln 25673337:50:12
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57 The macroscopic current reversal potential (VREV) Fig. 2 Block by intracellular SCN- and C(CN)3 - is weakened in K95Q/E1371Q channels. Example macroscopic IV relationships for E1371Q (a) and K95Q/E1371Q (b) CFTR channels recorded before (control) and after the addition of 10 mM SCN- to the intracellular (bath) solution. c Mean KD values for SCN- block for these channel constructs, obtained as described for Au(CN)2 - in Fig. 1.
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ABCC7 p.Glu1371Gln 25673337:57:118
status: NEW
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ABCC7 p.Glu1371Gln 25673337:57:176
status: NEW
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ABCC7 p.Glu1371Gln 25673337:57:196
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68 Results Intracellular Au(CN)2 - ions cause a voltage-dependent block of open CFTR channel pores [17], a finding that is recapitulated in constitutively open E1371Q channels (Fig. 1).
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ABCC7 p.Glu1371Gln 25673337:68:157
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71 Thus, the mean KD was increased between 92-fold (at -100 mV) and 19-fold (at ?60 mV) in K95Q/E1371Q (Fig. 1d).
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ABCC7 p.Glu1371Gln 25673337:71:93
status: NEW
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72 Similar weakening of block in K95Q/E1371Q Fig. 3 Strength of Au(CN)2 - block is dependent on the number of positive charges in the pore inner vestibule.
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ABCC7 p.Glu1371Gln 25673337:72:35
status: NEW
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73 a Example macroscopic I-V relationships for K95H/E1371Q CFTR channels recorded using bath solutions at pH 5.5 (left) or pH 9.0 (right, different patch).
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ABCC7 p.Glu1371Gln 25673337:73:49
status: NEW
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75 b Mean KD values for Au(CN)2 - block of K95H/E1371Q at these two different pHs, obtained as described for Au(CN)2 - in Fig. 1.
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ABCC7 p.Glu1371Gln 25673337:75:45
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77 c Relationship between the observed KD values for Au(CN)2 - block (at -100 mV) and bath solution pH in K95H/ E1371Q and E1371Q.
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ABCC7 p.Glu1371Gln 25673337:77:109
status: NEW
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ABCC7 p.Glu1371Gln 25673337:77:120
status: NEW
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78 d Example macroscopic I-V relationships for I344K/E1371Q (left) and K95Q/I344K/E1371Q (right) CFTR channels recorded before (control) and after the addition of a low concentration (10 lM) of Au(CN)2 - to the intracellular (bath) solution.
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ABCC7 p.Glu1371Gln 25673337:78:50
status: NEW
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ABCC7 p.Glu1371Gln 25673337:78:79
status: NEW
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79 e Mean KD values for Au(CN)2 - block for these channel constructs, as well as the additional positive charge mutants V345K/ E1371Q and S1141K/E1371Q, obtained as described in Fig. 1. f Relationship between the observed KD values for Au(CN)2 - block (at -100 mV) and the expected number of fixed positive charges in the pore inner vestibule in different channel constructs.
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ABCC7 p.Glu1371Gln 25673337:79:124
status: NEW
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ABCC7 p.Glu1371Gln 25673337:79:142
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82 Asterisks indicate a significant difference from E1371Q (*P \ 0.05, **P \ 0.0001).
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ABCC7 p.Glu1371Gln 25673337:82:49
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86 As shown in Fig. 3a and b, block of K95H/E1371Q by intracellular Au(CN)2 - was drastically stronger at pH 5.5 compared to pH 9.0, with the mean KD at -100 mV being increased 244-fold at the more alkaline pH.
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ABCC7 p.Glu1371Gln 25673337:86:41
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87 In contrast, Au(CN)2 - block of E1371Q was not pH-dependent (Fig. 3c).
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ABCC7 p.Glu1371Gln 25673337:87:32
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90 Consistent with this, mutation of any of these three residues to lysine (I344K, V345K, S1141K) led to a significant strengthening of Au(CN)2 - block (Fig. 3d-f), with mean KD values at -100 mV being reduced by 18-fold (I344K/E1371Q), 17-fold (V345K/E1371Q) and 7-fold (S1141K/E1371Q), respectively.
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ABCC7 p.Glu1371Gln 25673337:90:225
status: NEW
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ABCC7 p.Glu1371Gln 25673337:90:249
status: NEW
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ABCC7 p.Glu1371Gln 25673337:90:276
status: NEW
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91 ''Moving`` the key positive charge from TM1 to TM6 by mutagenesis (in the K95Q/I344K/E1371Q mutant) resulted in Au(CN)2 - block that was intermediate in strength between E1371Q and I344K/E1371Q (Fig. 3e-f).
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ABCC7 p.Glu1371Gln 25673337:91:85
status: NEW
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ABCC7 p.Glu1371Gln 25673337:91:170
status: NEW
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ABCC7 p.Glu1371Gln 25673337:91:187
status: NEW
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93 As well as showing tight binding of lyotropic permeant anions, CFTR also shows a lyotropic anion permeability Fig. 4 Block of F337A/ E1371Q channels by intracellular lyotropic permeant anions.
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ABCC7 p.Glu1371Gln 25673337:93:133
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94 a, b Example macroscopic I-V relationships for F337A/E1371Q CFTR channels recorded before (control) and after the addition of Au(CN)2 - (1 mM) or SCN- (10 mM) to the intracellular (bath) solution. c Mean KD values for Au(CN)2 - , SCN- , and C(CN)3 - (estimated at -100 mV as described in Figs. 1 and 2) compared in E1371Q, K95Q/ E1371Q, and F337A/E1371Q.
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ABCC7 p.Glu1371Gln 25673337:94:53
status: NEW
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ABCC7 p.Glu1371Gln 25673337:94:315
status: NEW
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ABCC7 p.Glu1371Gln 25673337:94:329
status: NEW
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ABCC7 p.Glu1371Gln 25673337:94:347
status: NEW
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95 Asterisks indicate a significant difference from E1371Q (P \ 0.01).
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ABCC7 p.Glu1371Gln 25673337:95:49
status: NEW
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100 As shown in Fig. 5, macroscopic current reversal potential measurements with different anions present in the intracellular solution gave a permeability selectivity sequence SCN- [ NO3 - [ Br- [ Cl- [ F- for E1371Q-CFTR, with very similar relative permeabilities for those previously reported for wild type CFTR under similar conditions [11].
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ABCC7 p.Glu1371Gln 25673337:100:207
status: NEW
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101 Consistent with the proposed role of F337 in controlling lyotropic anion permeability, the permeability of all anions tested in F337A/E1371Q was significantly changed relative to E1371Q (Fig. 5b), with the permeability selectivity sequence being changed to NO3 - - C SCN- C Cl- [ Br- [ F- .
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ABCC7 p.Glu1371Gln 25673337:101:134
status: NEW
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ABCC7 p.Glu1371Gln 25673337:101:179
status: NEW
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102 Again, relative permeability values for F337A/E1371Q were similar to those reported previously for F337A [18].
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ABCC7 p.Glu1371Gln 25673337:102:46
status: NEW
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103 In contrast, neither K95Q nor I344K altered the permeability selectivity sequence; in fact, the only significant difference between either K95Q/ E1371Q or I344K/E1371Q compared to E1371Q was a small increase in PF/PCl in K95Q/E1371Q.
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ABCC7 p.Glu1371Gln 25673337:103:145
status: NEW
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ABCC7 p.Glu1371Gln 25673337:103:161
status: NEW
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ABCC7 p.Glu1371Gln 25673337:103:180
status: NEW
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ABCC7 p.Glu1371Gln 25673337:103:226
status: NEW
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106 Note that the range of current reversal potentials was greatly reduced in F337A/E1371Q, suggesting a relative loss of permeability selectivity in this mutant.
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ABCC7 p.Glu1371Gln 25673337:106:80
status: NEW
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107 b Mean PX/PCl values calculated from current reversal potential measurements under these conditions as described in ''Materials and methods.`` Asterisks indicate a significant difference from E1371Q (*P \ 0.05; **P \ 0.002).
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ABCC7 p.Glu1371Gln 25673337:107:192
status: NEW
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109 Note that the normal lyotropic relationship between relative permeability and Gh is greatly reduced in F337A/E1371Q but retained in K95Q/E1371Q and I344K/E1371Q.
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ABCC7 p.Glu1371Gln 25673337:109:109
status: NEW
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ABCC7 p.Glu1371Gln 25673337:109:137
status: NEW
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ABCC7 p.Glu1371Gln 25673337:109:154
status: NEW
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PMID: 25892339 [PubMed] Linsdell P et al: "Interactions between permeant and blocking anions inside the CFTR chloride channel pore."
No. Sentence Comment
2 In constitutively open (E1371Q-CFTR) channels, these different anions bind to two separate sites, located in the outer and inner vestibules of the pore respectively, in a mutually antagonistic fashion.
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ABCC7 p.Glu1371Gln 25892339:2:24
status: NEW
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32 Binding of Pt(NO2)4 2-to this site in the inner vestibule affects both Cl-permeation through the open channel and also channel opening and closing [47], however the effect on Cl- movement in open channels can be isolated using gating-defective, constitutively open E1371Q-CFTR channels [47].
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ABCC7 p.Glu1371Gln 25892339:32:265
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40 Macroscopic currents were recorded from gating-defective, constitutively-open E1371Q channels [49], whereas single channel recording experiments were carried out in a wild type CFTR background.
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ABCC7 p.Glu1371Gln 25892339:40:78
status: NEW
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41 It has previously been shown that, whereas Pt(NO2)4 2- has complex effects on Cl- conduction and gating in wild type, effects on conduction are isolated in E1371Q, and that blocking effects on this channel mutant are indistinguishable from those on wild type channels in the open state [47].
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ABCC7 p.Glu1371Gln 25892339:41:156
status: NEW
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65 (A, B, E, F) Example macroscopic I-V relationships for E1371Q (A, B) or R899Q/E1371Q (E, F) under high (154 mM; A, E) or low (4 mM; B, F) extracellular [Cl- ] conditions. In each case currents were recorded before (control) and after the addition of 100 bc;M and 1 mM Pt(NO2)4 2-to the intracellular solution.
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ABCC7 p.Glu1371Gln 25892339:65:55
status: NEW
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ABCC7 p.Glu1371Gln 25892339:65:78
status: NEW
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66 (C, G) Mean fraction of control current remaining after addition of different concentrations of Pt(NO2)4 2- at a membrane potential of -100 mV for E1371Q (C) and R899Q/E1371Q (G) under high (filled circles) and low (open circles) extracellular [Cl- ] conditions. Data have been fitted using Eq. (1) as described in the Materials and methods.
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ABCC7 p.Glu1371Gln 25892339:66:147
status: NEW
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ABCC7 p.Glu1371Gln 25892339:66:168
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67 (D) Mean Pt KD values obtained from such fits at different membrane potentials for E1371Q; results for R899Q/E1371Q were indistinguishable (not shown).
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ABCC7 p.Glu1371Gln 25892339:67:83
status: NEW
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ABCC7 p.Glu1371Gln 25892339:67:109
status: NEW
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69 (H) Mean values of Pt KD at 0 mV membrane potential obtained from fits of Pt KD-V relationships such as those shown in D for E1371Q (filled squares) and R899Q/E1371Q (open squares) at different extracellular [Cl- ].
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ABCC7 p.Glu1371Gln 25892339:69:125
status: NEW
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ABCC7 p.Glu1371Gln 25892339:69:159
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71 There was no significant difference between E1371Q and R899Q/E1371Q (P N 0.85).
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ABCC7 p.Glu1371Gln 25892339:71:44
status: NEW
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ABCC7 p.Glu1371Gln 25892339:71:61
status: NEW
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73 dissociation constant for block by intracellular Pt(NO2)4 2- ions (Pt KD) at different extracellular [Cl- ] ([Cl- ]o) derives from both the dissociation constant for the internal binding site when the external binding site is occupied by Cl- (Pt Kocc) and that when the external binding site is vacant (Pt Kvac) according to: Pt KD &#bc; Pt Kocc Cl - &#bd; o &#fe; Pt Kvac: &#f0;3&#de; This model predicts a linear relationship between Pt KD and [Cl- ]o, which was reasonably well observed in the present study at different membrane potentials for E1371Q (Figs. 2H, 8A) and pore-mutant CFTR channels (Figs. 4E, J, 6D, H, 8B, C, 10A, B), as well as when extracellular Cl-was replaced by other anions (Figs. 3D, 7E, F, 11A, E).
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ABCC7 p.Glu1371Gln 25892339:73:549
status: NEW
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82 This effect is illustrated for constitutively open E1371Q channels in Fig. 2: Pt(NO2)4 2- block is strengthened as extracellular Cl- is replaced by impermeant gluconate anions (Fig. 2C, D), resulting in a monotonic increase in the measured KD (at 0 mV membrane potential) as extracellular [Cl- ] is increased (Fig. 2H).
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ABCC7 p.Glu1371Gln 25892339:82:51
status: NEW
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83 Identical results were obtained in R899Q/ E1371Q channels (Fig. 2; Table 1), both at high and low [Cl- ]o conditions, indicating that extracellular Cl- interactions with this externally-located arginine residue (Fig. 1) do not contribute to these antagonistic effects.
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ABCC7 p.Glu1371Gln 25892339:83:42
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84 This confirms that use of the E1371Q background effectively isolates Cl- :Pt(NO2)4 2- interactions that occur within the channel pore from those that may involve Cl- interactions with a non-pore extracellular site.
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ABCC7 p.Glu1371Gln 25892339:84:30
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87 (A, B) Example macroscopic I-V relationships for E1371Q when the extracellular solution contained 150 mM SCN- (A) or 150 mM ClO4 - (B).
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ABCC7 p.Glu1371Gln 25892339:87:49
status: NEW
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99 Thus, K95Q/E1371Q is associated with weakened Pt(NO2)4 2- block (Fig. 4A-E), and I344K/E1371Q with greatly strengthened block (Fig. 4F-J).
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ABCC7 p.Glu1371Gln 25892339:99:11
status: NEW
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ABCC7 p.Glu1371Gln 25892339:99:87
status: NEW
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101 Thus Pt KD was only very weakly [Cl- ]o-sensitive in K95Q/E1371Q (Fig. 4E), but very strongly [Cl- ]o-dependent in I344K/E1371Q (Fig. 4J).
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ABCC7 p.Glu1371Gln 25892339:101:58
status: NEW
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ABCC7 p.Glu1371Gln 25892339:101:121
status: NEW
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102 The affinity, voltage dependence, and [Cl- ]o-dependence of block in E1371Q, K95Q/E1371Q and I344K/E1371Q are compared directly in Fig. 5 and Table 1.
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ABCC7 p.Glu1371Gln 25892339:102:69
status: NEW
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ABCC7 p.Glu1371Gln 25892339:102:82
status: NEW
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ABCC7 p.Glu1371Gln 25892339:102:99
status: NEW
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105 Consistent with this model, neutralization of this charge in the R334Q/E1371Q mutant abolished the relationship between intracellular Pt(NO2)4 2- block and extracellular [Cl- ] (Fig. 6A-D).
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ABCC7 p.Glu1371Gln 25892339:105:71
status: NEW
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106 Block under low [Cl- ] conditions was weakened by the R334Q mutation (Table 1; also compare results for R334Q/E1371Q in Fig. 6C with E1371Q in Fig. 2D), resulting in a significant increase in Pt KD at all voltages (P b 0.002).
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ABCC7 p.Glu1371Gln 25892339:106:110
status: NEW
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ABCC7 p.Glu1371Gln 25892339:106:133
status: NEW
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109 Since the R334Q and I344K mutations in different parts of the pore (Fig. 1) had opposite effects on the [Cl- ]o-sensitivity of Pt(NO2)4 2- block - which was practically abolished in R334Q/E1371Q (Fig. 6) but greatly increased in I344K/E1371Q (Figs. 4, 5) - these mutations were combined to generate a R334Q/I344K/E1371Q mutant.
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ABCC7 p.Glu1371Gln 25892339:109:188
status: NEW
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ABCC7 p.Glu1371Gln 25892339:109:235
status: NEW
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ABCC7 p.Glu1371Gln 25892339:109:313
status: NEW
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110 Not only did R334Q/I344K/E1371Q channels exhibit strong Pt(NO2)4 2- block (Table 1), but block was also strongly dependent on extracellular [Cl- ] (Fig. 6E-H).
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ABCC7 p.Glu1371Gln 25892339:110:25
status: NEW
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111 This confirms that the I344K mutation not only strengthens interactions with intracellular Pt(NO2)4 2- ions but also with extracellular Cl-ions. Furthermore, this effect on interactions with extracellular Cl- appears independent of the presence of a positively charged side chain at position 334: whereas the R334Q mutation abolishes Cl- -dependence of block in E1371Q channels (Fig. 6D), it does not in I344K- bearing E1371Q channels (Fig. 6H).
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ABCC7 p.Glu1371Gln 25892339:111:362
status: NEW
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ABCC7 p.Glu1371Gln 25892339:111:419
status: NEW
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112 Thus, interactions with external Cl- that are lost in R334Q/E1371Q channels are at least partially restored by the I344K mutation.
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ABCC7 p.Glu1371Gln 25892339:112:60
status: NEW
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113 To examine if the I344K mutation also resulted in altered interactions with other extracellular anions - and if this effect was also independent of R334 -Pt(NO2)4 2- block was also investigated with other extracellular anions, both in I344K/E1371Q and in R334Q/I344K/ E1371Q channels (Fig. 7).
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ABCC7 p.Glu1371Gln 25892339:113:241
status: NEW
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ABCC7 p.Glu1371Gln 25892339:113:268
status: NEW
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114 In both these channel mutants Pt(NO2)4 2- block was also weakened by other extracellular anions (Fig. 7C-H), with a similar overall apparent anion selectivity to that observed for E1371Q (Fig. 3E).
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ABCC7 p.Glu1371Gln 25892339:114:180
status: NEW
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116 First, SCN- had a very strong negative effect on Pt(NO2)4 2- block in I344K/E1371Q, increasing Pt KD(0) N600-fold relative to that with gluconate and N25-fold relative to that with Cl- (Fig. 7C, E, G).
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ABCC7 p.Glu1371Gln 25892339:116:76
status: NEW
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117 Secondly, formate was able to significantly increase Pt KD(0) relative to gluconate in both I344K/E1371Q (Fig. 7G) and in R334Q/I344K/E1371Q (Fig. 7H), unlike in E1371Q where formate had no significant effect (Fig. 3D, E).
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ABCC7 p.Glu1371Gln 25892339:117:98
status: NEW
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ABCC7 p.Glu1371Gln 25892339:117:134
status: NEW
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ABCC7 p.Glu1371Gln 25892339:117:162
status: NEW
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119 A quantitative model of anion binding In constitutively open E1371Q channels, extracellular Cl- (Fig. 2) and other monovalent anions (Fig. 3) weaken the blocking effects of Pt(NO2)4 2- , suggesting that these anions compete for binding inside the channel pore.
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ABCC7 p.Glu1371Gln 25892339:119:61
status: NEW
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123 Fits to mean data for E1371Q using Eq. (3) (Fig. 8A) suggest, at 0 mV membrane potential, a Pt Kvac of 245 bc;M (Fig. 8D), Pt Kocc of 1440 bc;M (Fig. 8E), and Cl K 179 mM (Fig. 8F), with voltage dependencies of these parameters suggesting Pt zb4;vac of -0.39 (Fig. 8D), Pt zb4;occ -0.63 (Fig. 8E), and Cl zb4; +0.22 (Fig. 8F).
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ABCC7 p.Glu1371Gln 25892339:123:22
status: NEW
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126 Asterisks indicate a significant difference from E1371Q (*P b 0.05; **P b 0.001).
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ABCC7 p.Glu1371Gln 25892339:126:49
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128 Pt KD(0) (4 mM Cl- ) (bc;M) zb4; (4 mM Cl- ) Pt KD(0) (154 mM Cl- ) (bc;M) zb4; (154 mM Cl- ) E1371Q 183.7 &#b1; 33.2 (9) -0.397 &#b1; 0.030 (9) 441.0 &#b1; 28.6 (7) -0.503 &#b1; 0.026 (7) R899Q/E1371Q 189.9 &#b1; 55.0 (6) -0.362 &#b1; 0.063 (6) 434.0 &#b1; 32.2 (7) -0.458 &#b1; 0.048 (7) K95Q/E1371Q 1110 &#b1; 172 (6)** -0.244 &#b1; 0.022 (6)* 1422 &#b1; 218 (6)** -0.193 &#b1; 0.041 (6)** I344K/E1371Q 6.92 &#b1; 1.48 (6)** -1.589 &#b1; 0.125 (6)** 164.7 &#b1; 27.5 (7)** -1.604 &#b1; 0.080 (7)** R334Q/E1371Q 1081 &#b1; 220 (4)** -0.637 &#b1; 0.106 (4)* 1112 &#b1; 144 (4)** -0.621 &#b1; 0.051 (4)* R334Q/I344K/E1371Q 39.24 &#b1; 7.94 (4)* -1.093 &#b1; 0.037 (4)** 258.3 &#b1; 30.7 (5)* -1.075 &#b1; 0.033 (5)** Fig. 4. Effect of mutations that weaken or strengthen intracellular Pt(NO2)4 2- block.
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ABCC7 p.Glu1371Gln 25892339:128:106
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:128:207
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:128:307
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:128:411
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:128:519
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:128:628
status: NEW
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129 (A, B, F, G) Example macroscopic I-V relationships for K95Q/E1371Q (A, B) or I344K/E1371Q (F, G) under high (154 mM; A, F) or low (4 mM; B, G) extracellular [Cl- ] conditions. In each case currents were recorded before (control) and after the addition of Pt(NO2)4 2- (at the concentrations indicated) to the intracellular solution.
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ABCC7 p.Glu1371Gln 25892339:129:60
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:129:83
status: NEW
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135 There was no significant difference in these parameters for K95Q/E1371Q (E) (P N 0.05).
X
ABCC7 p.Glu1371Gln 25892339:135:65
status: NEW
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136 Dotted line indicates the fit to data for E1371Q (see Fig. 2H).
X
ABCC7 p.Glu1371Gln 25892339:136:42
status: NEW
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140 Quantitative analysis of anion binding in mutant channels Similar analysis of Cl- -dependent Pt(NO2)4 2- block in K95Q/E1371Q and I344K/E1371Q (Fig. 8B, C) provides additional insight into the effect of mutations close to the putative Pt(NO2)4 2-binding site.
X
ABCC7 p.Glu1371Gln 25892339:140:119
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:140:136
status: NEW
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142 Compared to E1371Q, Pt(NO2)4 2-binding was weakened in K95Q/E1371Q, both in Cl- - unoccupied (Fig. 8D) and Cl- -occupied channels (Fig. 8E), although its voltage dependence was little changed; and Cl-binding itself was only slightly weakened (Fig. 8F).
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ABCC7 p.Glu1371Gln 25892339:142:12
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:142:60
status: NEW
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144 In fact, since Pt(NO2)4 2- block is so weak in K95Q/E1371Q, the accuracy of estimated Cl K in this mutant is questionable.
X
ABCC7 p.Glu1371Gln 25892339:144:52
status: NEW
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146 Compared to E1371Q, the intrinsic Pt(NO2)4 2-binding affinity of I344K/E1371Q is increased ~1400-fold by the addition of a second fixed positive charge in the inner vestibule, with no apparent change in the voltage dependence of binding (Fig. 8D).
X
ABCC7 p.Glu1371Gln 25892339:146:12
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:146:71
status: NEW
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148 In fact, the impact of Cl-binding on Pt(NO2)4 2-binding affinity (the difference between Pt Kvac and Pt Kocc) appears much greater in I344K/E1371Q than in E1371Q (Fig. 9).
X
ABCC7 p.Glu1371Gln 25892339:148:140
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:148:155
status: NEW
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149 Finally, Cl-binding affinity is higher in I334K/E1371Q (Fig. 8F; Table 2), suggesting that the I344K mutation strengthens interactions with external Cl-ions as well as with internal Pt(NO2)4 2- ions. Furthermore, the voltage-dependence of Cl-binding is greatly increased, with Cl zb4; being increased N5-fold (Fig. 8F), suggesting that external Cl-ions cross a much larger part of the transmembrane electric field to reach their binding site in this mutant.
X
ABCC7 p.Glu1371Gln 25892339:149:48
status: NEW
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150 External Cl- -dependence of Pt(NO2)4 2- block is abolished in R334Q/ E1371Q (Fig. 6C, D; Fig. 10A), consistent with the positive charge at this site in the outer vestibule of the pore (Fig. 1) being crucial for interactions between the channel and extracellular Cl-ions that are required for ion:ion interactions inside the pore [33,43].
X
ABCC7 p.Glu1371Gln 25892339:150:69
status: NEW
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151 Binding of Pt(NO2)4 2- ions to R334Q/E1371Q was somewhat weaker than E1371Q (Fig. 10C; Table 2), consistent with earlier reports that mutations at R334 disrupt blocker binding in the pore inner vestibule, perhaps by a long-range conformational effect on the pore [56].
X
ABCC7 p.Glu1371Gln 25892339:151:37
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:151:69
status: NEW
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152 The voltage-dependence of Pt(NO2)4 2-binding is also increased in R334Q/E1371Q (Fig. 10C).
X
ABCC7 p.Glu1371Gln 25892339:152:72
status: NEW
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153 However, the very low apparent Cl- affinity of R334Q/E1371Q implied by the apparent [Cl- ]-independence of Pt KD in this mutant (Figs. 6D, 10A) precluded quantitative analysis of Pt Kocc(0) and Cl K in this case; the lack of slope illustrated in the relationships in Figs. 6D and 10A imply extremely low Cl-binding affinity, consistent with ablation of the external Cl-binding site.
X
ABCC7 p.Glu1371Gln 25892339:153:53
status: NEW
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154 Although the R334Q mutant abolished Cl- -dependence of Pt(NO2)4 2- block, the double pore mutant R334Q/I344K/E1371Q showed strongly Cl- -dependent block (Fig. 6E-H; Fig. 10B), suggesting that the presence of the I344K mutant restores Cl-binding that is lost in R334Q/E1371Q.
X
ABCC7 p.Glu1371Gln 25892339:154:109
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:154:267
status: NEW
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155 Quantitative analysis of data from R334Q/I344K/ E1371Q (Fig. 10; Table 2) suggests that the presence of the second fixed positive charge in the inner vestibule at position 344 still supports strong Pt(NO2)4 2-binding (Fig. 10C), although (as for E1371Q) Pt(NO2)4 2-binding is somewhat weakened by the R334Q mutation (Fig. 10C).
X
ABCC7 p.Glu1371Gln 25892339:155:48
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:155:246
status: NEW
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156 Binding of Pt(NO2)4 2-to Cl- -occupied channels is similar in R334Q/E1371Q and R334Q/I344K/E1371Q (Fig. 10D), suggesting that R334 plays little or no role in ion:ion interactions in mutant channels bearing a positive charge at position 344.
X
ABCC7 p.Glu1371Gln 25892339:156:68
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:156:91
status: NEW
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157 Chloride binding also remains strong in R334Q/I344K/E1371Q, although it too is somewhat weakened by the R334Q mutation (Fig. 10E).
X
ABCC7 p.Glu1371Gln 25892339:157:52
status: NEW
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158 The strong effect of external Clon Pt(NO2)4 2-binding to R334Q/I344K/E1371Q channels is illustrated in Fig. 9D.
X
ABCC7 p.Glu1371Gln 25892339:158:69
status: NEW
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159 Because the effect of external SCN- on Pt(NO2)4 2- block was so dramatically altered in I344K/E1371Q (Fig. 7C, E, G), quantitative analysis of the effects of SCN- was also carried out (Fig. 11; Table 3).
X
ABCC7 p.Glu1371Gln 25892339:159:94
status: NEW
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160 As for external Cl- (Fig. 8), there was a linear relationship between [SCN- ]o and Pt KD, both in E1371Q (Fig. 11A) and I344K/E1371Q (Fig. 11E), consistent with competition between SCN- and Pt(NO2)4 2- ions.
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ABCC7 p.Glu1371Gln 25892339:160:98
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:160:126
status: NEW
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162 (A) Relationship between Pt(NO2)4 2-binding affinity (Pt KD at 0 mV) and [Cl- ]o for E1371Q (black), K95Q/E1371Q (blue; see Fig. 1) and I344K/E1371Q (red; see Fig. 1).
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ABCC7 p.Glu1371Gln 25892339:162:85
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:162:106
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:162:142
status: NEW
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163 Asterisks indicate a significant difference from E1371Q (P b 0.001).
X
ABCC7 p.Glu1371Gln 25892339:163:49
status: NEW
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165 Asterisks and daggers indicate a significant difference from E1371Q (asterisks, P b 0.005; daggers, P b 0.0000005).
X
ABCC7 p.Glu1371Gln 25892339:165:61
status: NEW
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168 (A, B, E, F) Example macroscopic I-V relationships for R334Q/E1371Q (A, B) or R334Q/I344K/E1371Q (E, F) under high (154 mM; A, E) or low (4 mM; B, F) extracellular [Cl- ] conditions. In each case currents were recorded before (control) and after the addition of Pt(NO2)4 2- (at the concentrations indicated) to the intracellular solution.
X
ABCC7 p.Glu1371Gln 25892339:168:61
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:168:90
status: NEW
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172 There was no significant difference in these parameters for R334Q/E1371Q (E) (P N 0.5).
X
ABCC7 p.Glu1371Gln 25892339:172:66
status: NEW
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173 Dotted lines indicate the fit to data for E1371Q (see Fig. 2H) or I344K/E1371Q (see Fig. 4J) as indicated.
X
ABCC7 p.Glu1371Gln 25892339:173:42
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:173:72
status: NEW
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175 E1371Q, SCN K was greatly reduced (Fig. 11F; Table 3), Pt Kocc(0) was slightly increased (Fig. 11G; Table 3), and both SCN zb4; and Pt zb4;occ were increased (Fig. 11F, G; Table 3).
X
ABCC7 p.Glu1371Gln 25892339:175:0
status: NEW
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176 In both E1371Q (Fig. 11D) and I344K/ E1371Q (Fig. 11H), SCN- binding had a greater destabilizing impact on Pt(NO2)4 2-binding than did Cl- .
X
ABCC7 p.Glu1371Gln 25892339:176:8
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:176:37
status: NEW
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183 (A, B) Example macroscopic I-V relationships for I344K/E1371Q (A) or R334Q/I344K/E1371Q (B) with extracellular solution containing 150 mM SCN- .
X
ABCC7 p.Glu1371Gln 25892339:183:55
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:183:81
status: NEW
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197 The present study using constitutively active E1371Q channels appears to effectively isolate the effects of Cl- acting inside the pore, at least for the test blocker Pt(NO2)4 2- .
X
ABCC7 p.Glu1371Gln 25892339:197:46
status: NEW
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198 Thus, block by cytoplasmic Pt(NO2)4 2- ions - and its dependence on extracellular [Cl- ] - is independent of the R899Q mutation (in an E1371Q background) (Fig. 2; Table 1).
X
ABCC7 p.Glu1371Gln 25892339:198:135
status: NEW
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208 The ability of the E1371Q background effectively to isolate antagonistic interactions between external anions and intracellular Pt(NO2)4 2- blocking anions that occur inside the open channel pore affords a novel opportunity to investigate the nature and molecular bases of these antagonistic interactions.
X
ABCC7 p.Glu1371Gln 25892339:208:19
status: NEW
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216 (A-C) Effect of extracellular [Cl- ] ([Cl- ]o) on the measured Pt KD in E1371Q (A), K95Q/E1371Q (B) and I344K/E1371Q (C) at different membrane potentials as indicated in panel A. Straight-line fits to the data are to Eq. (3) as described in the Materials and methods.
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ABCC7 p.Glu1371Gln 25892339:216:72
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:216:89
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:216:110
status: NEW
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219 Data for I344K/E1371Q at positive voltages appear unreliable, likely due to the very strong voltage dependence of block observed in this mutant.
X
ABCC7 p.Glu1371Gln 25892339:219:15
status: NEW
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221 Because of the lack of [Cl- ]o-dependence in R334Q/E1371Q, values for Pt Kocc, Pt zb4;occ, Cl K and Cl zb4; could not be obtained for this mutant.
X
ABCC7 p.Glu1371Gln 25892339:221:51
status: NEW
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222 Pt Kvac(0) (bc;M) Pt zb4;vac Pt Kocc(0) (bc;M) Pt zb4;occ Cl K (mM) Cl zb4; E1371Q 245 -0.39 1440 -0.63 179 +0.22 K95Q/E1371Q 1150 -0.23 4400 -0.58 296 +0.20 I344K/E1371Q 0.174 -0.42 978 -1.12 0.264 +1.09 R334Q/E1371Q 1120 -0.71 - - - - R334Q/I344K/E1371Q 31.8 -1.04 1500 -1.15 232 +0.23 Fig. 9. Effect of bound extracellular Cl-ions on the binding of intracellular Pt(NO2)4 2- ions.
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ABCC7 p.Glu1371Gln 25892339:222:91
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:222:134
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:222:179
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:222:226
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:222:264
status: NEW
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224 As noted in the legend to Fig. 8, data for I344K/E1371Q at positive voltages appear unreliable, likely due to the very strong voltage dependence of block observed in this mutant.
X
ABCC7 p.Glu1371Gln 25892339:224:49
status: NEW
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239 A second mechanism of knock-off in I344K-containing channel pores Addition of a second positive charge lining the inner vestibule in I344K/E1371Q increases intrinsic Pt(NO2)4 2-binding affinity ~1400-fold (Figs. 5, 8; Table 2), likely because the additional positive charge increases electrostatic interactions with divalent Pt(NO2)4 2- anions [47] (Fig. 13B).
X
ABCC7 p.Glu1371Gln 25892339:239:139
status: NEW
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242 (A, B) Effect of extracellular [Cl- ] ([Cl- ]o) on the measured Pt KD in R334Q/E1371Q (A) and R334Q/I344K/E1371Q (B) at different membrane potentials as indicated.
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ABCC7 p.Glu1371Gln 25892339:242:79
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:242:106
status: NEW
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246 Note that, because of the apparent lack of effect of external Clon Pt(NO2)4 2- block in R334Q/ E1371Q, it was not possible to obtain values for Pt Kocc or Cl K for this mutant.
X
ABCC7 p.Glu1371Gln 25892339:246:95
status: NEW
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248 As noted in the legend to Fig. 8, data for I344K/E1371Q at positive voltages appear unreliable, likely due to the very strong voltage dependence of block observed in this mutant.
X
ABCC7 p.Glu1371Gln 25892339:248:49
status: NEW
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251 (A, E) Effect of extracellular [SCN- ] ([SCN- ]o) on the measured Pt KD in E1371Q (A) and I344K/E1371Q (E) at 0 mV and -100 mV membrane potential.
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ABCC7 p.Glu1371Gln 25892339:251:75
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:251:96
status: NEW
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255 Dotted lines in F and G indicate the fit to data for E1371Q (from B and C).
X
ABCC7 p.Glu1371Gln 25892339:255:53
status: NEW
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256 As noted in the legend to Fig. 8, data for I344K/E1371Q at positive voltages appear unreliable, likely due to the very strong voltage dependence of block observed in this mutant.
X
ABCC7 p.Glu1371Gln 25892339:256:49
status: NEW
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266 However, the R334Q mutation has only a minor impact on Cl-binding in the presence of I344K, and Cl-binding to the R334Q/I344K/E1371Q mutant remains strong and strongly voltage-dependent (Fig. 10; Table 2).
X
ABCC7 p.Glu1371Gln 25892339:266:126
status: NEW
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267 This suggests that in I344K-containing channels (unlike E1371Q background channels), significant binding of extracellular Cl- occurs at a site that is independent of R334.
X
ABCC7 p.Glu1371Gln 25892339:267:56
status: NEW
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268 Indeed, knock-off of Pt(NO2)4 2- by Cl- appears similar in I344K/ E1371Q and R334Q/I344K/E1371Q channels (Fig. 10D), suggesting that anion binding near R334 plays little role in ion:ion interactions that occur in channels bearing the I344K mutation.
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ABCC7 p.Glu1371Gln 25892339:268:66
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:268:89
status: NEW
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272 Not only the binding affinity of external Cl- and internal Pt(NO2)4 2- , but also the Table 3 Mean parameters obtained from analysis of the [SCN- ]o-dependence of Pt(NO2)4 2- block in E1371Q and I344K/E1371Q, as described in Fig. 11.
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ABCC7 p.Glu1371Gln 25892339:272:184
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:272:201
status: NEW
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274 Pt Kocc(0) (bc;M) Pt zb4;occ SCN K (bc;M) SCN zb4; E1371Q 17,500 -0.54 14,000 +0.137 I344K/E1371Q 32,900 -0.94 1.95 +0.917 Fig. 12.
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ABCC7 p.Glu1371Gln 25892339:274:63
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:274:103
status: NEW
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282 strengthoftheinteractionbetweenthem,isalteredinI344K-containingchan- nels.Thus,thedestabilizingeffectofCl- onPt(NO2)4 2-binding-evaluated fromthedifferencebetweenPt(NO2)4 2- bindinginvacantandCl- -occupied channels(i.e.betweenPt KvacandPt Kocc)-ismuchgreaterinI344K/E1371Q (and to a lesser extent R334Q/I344K/E1371Q) than in E1371Q or K95Q/ E1371Q(Fig.9).Strengthenedinteractionsbetweenboundanionsarealso suggestedbytheincreasedapparentcouplingbetweenthemovementof Pt(NO2)4 2- andCl- ionsinsidetheporeinI344K(Fig.8E).
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ABCC7 p.Glu1371Gln 25892339:282:266
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:282:309
status: NEW
X
ABCC7 p.Glu1371Gln 25892339:282:325
status: NEW
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283 One model that appears consistent with these results is that addition of a second positive charge in the inner vestibule (in I344K/E1371Q) increases the number of anions that can bind within this region of the pore (Fig. 13B).
X
ABCC7 p.Glu1371Gln 25892339:283:131
status: NEW
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295 Furthermore, because this destabilizing effect involves local interactions between bound anions (Fig. 13B), it may be relatively independent of anion binding in the outer vestibule of the pore - close to R334, which is required for normal anion:anion interactions observed in E1371Q background channels (Fig. 13A).
X
ABCC7 p.Glu1371Gln 25892339:295:276
status: NEW
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300 Understanding the observed properties of Pt(NO2)4 2- block of I344K channels Block of I344K/E1371Q by cytoplasmic Pt(NO2)4 2-was previously described as being of very high affinity, very strong voltage dependence, and very high sensitivity to extracellular [Cl- ] [47].
X
ABCC7 p.Glu1371Gln 25892339:300:92
status: NEW
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