ABCC7 p.Lys584Glu

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PMID: 20551307 [PubMed] Da Paula AC et al: "Folding and rescue of a cystic fibrosis transmembrane conductance regulator trafficking mutant identified using human-murine chimeric proteins."
No. Sentence Comment
4 We identified one amino acid substitution (K584E-CFTR) that disrupts CFTR processing in NBD1.
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ABCC7 p.Lys584Glu 20551307:4:43
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8 Introduction of the murine residue (Phe581 ) in cis with K584E in human CFTR rescued the processing and trafficking defects of K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:8:57
status: NEW
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ABCC7 p.Lys584Glu 20551307:8:127
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49 Systematic mutagenesis of the divergent murine residues present in these chimeras followed by biochemical and functional studies revealed that K584E is responsible for the maturation defect of the hmNBD1 chimera.
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ABCC7 p.Lys584Glu 20551307:49:143
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50 Furthermore, replacement of Leu581 (interacting with Lys584 in the structure of hNBD1) by the corresponding murine amino acid (Phe581 ) rescued the maturation of K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:50:162
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124 Thus, we identified six residues in 12b-NBD1 (E527Q, E528Q, S531T, K536Q, I539T, and K584E) and 12 residues in 114c-NBD2 (T1263I, P1290T, K1302Q, Y1307N, Q1309K, S1311K, R1325K, V1338T, C1344Y, L1367I, D1394G, and E1409D) (see supplemental Fig. 1 and supplemental Table 1, A and B).
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ABCC7 p.Lys584Glu 20551307:124:85
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126 With one exception (K584E; Fig. 2A, lane 8), all point mutants derived from 12b-NBD1 were processed (lanes 3-7) similarly to WT-hCFTR (Fig. 2A, lane 1).
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ABCC7 p.Lys584Glu 20551307:126:20
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127 Like F508del (Fig. 2A, lane 2), K584E (lane 8) only generated immature CFTR protein (band B; 150-kDa).
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ABCC7 p.Lys584Glu 20551307:127:32
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129 These data suggest that all CFTR constructs except K584E are delivered to the cell surface.
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ABCC7 p.Lys584Glu 20551307:129:51
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133 Like BHK cells expressing F508del-CFTR (Fig. 2C and supplemental Fig. 2A), those expressing K584E-CFTR failed to elicit an efflux of I- when treated with forskolin and genistein (Fig. 2C and supplemental Fig. 2C).
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ABCC7 p.Lys584Glu 20551307:133:92
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134 The likely explanation for this result is the lack of K584E-CFTR expression at the cell membrane as suggested by the absence of mature CFTR protein FIGURE 1.
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ABCC7 p.Lys584Glu 20551307:134:54
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152 By contrast, the agonists had barely any effect on BHK cells expressing K584E-CFTR (Fig. 2C), a result that is consistent with the trafficking defect of this mutant (Fig. 2A).
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ABCC7 p.Lys584Glu 20551307:152:72
status: NEW
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153 Characterization of Processing Defect of K584E-CFTR-The lack of maturation and of detectable activity for the K584E-CFTR mutant led us to investigate the surrounding environment of Lys584 in the published structure of hNBD1 (12).
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ABCC7 p.Lys584Glu 20551307:153:41
status: NEW
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ABCC7 p.Lys584Glu 20551307:153:110
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154 The rationale behind this approach was to uncover which residues near or interacting with Lys584 (hNBD1) might contribute to the putative conformational change caused by the K584E mutation.
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ABCC7 p.Lys584Glu 20551307:154:174
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155 We found that in the hNBD1 structure Lys584 interacts with Leu581 (Fig. 3, A and B) and that predictively in K584E the glutamic acid residue at position 584 becomes solvent-exposed (Fig. 3B).
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ABCC7 p.Lys584Glu 20551307:155:109
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157 Thus, we postulated that replacing Leu581 by a phenylalanine residue (as in mNBD1) might improve CFTR folding and rescue the processing defect of K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:157:146
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158 To test this hypothesis, we introduced L581F in cis with K584E-CFTR by site-directed mutagenesis (L581F/K584E-CFTR) and generated the corresponding stable BHK cell line as well as one expressing L581F-CFTR.
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ABCC7 p.Lys584Glu 20551307:158:57
status: NEW
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ABCC7 p.Lys584Glu 20551307:158:104
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159 We then analyzed these cell lines in parallel with that expressing K584E-CFTR by biochemical (Fig. 4, A and C-E), cell biology (Fig. 5), and functional approaches (Figs.
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ABCC7 p.Lys584Glu 20551307:159:67
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174 Error bars correspond to S.E. Folding of CFTR Chimeras AUGUST 27, 2010•VOLUME 285•NUMBER 35 JOURNAL OF BIOLOGICAL CHEMISTRY 27037 Fig. 4A demonstrates that both L581F- (lane 2) and L581F/ K584E- (lane 3) were detected as their fully glycosylated forms (band C) in contrast to K584E-CFTR (lane 1) for which only immature protein could be detected.
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ABCC7 p.Lys584Glu 20551307:174:202
status: NEW
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ABCC7 p.Lys584Glu 20551307:174:203
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175 We interpret these data to suggest that K584E is rescued by L581F, possibly mediated by the side chain of phenylalanine 581 that most probably fills the empty space previously occupied by the side chain of Lys584 (Fig. 3B) as occurs in the structure of mNBD1 (Fig. 3C) (11).
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ABCC7 p.Lys584Glu 20551307:175:40
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176 Data from WB also show that the trafficking defect of K584E-CFTR was rescued by incubation of cells at 26 °C (Fig. 4A, lane 7), similarly to F508del-CFTR (lane 6).
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ABCC7 p.Lys584Glu 20551307:176:54
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178 However, that of L581F/K584E-CFTR was intermediate between L581F- and WT-CFTR (Fig. 4B and supplemental Fig. 3A).
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ABCC7 p.Lys584Glu 20551307:178:23
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179 Furthermore, when cells expressing K584E-CFTR were incubated at 26 °C for 24 h (Fig. 4B and supplemental Fig. 3B), they generated an efflux of I- similar to that of F508del-CFTR-expressing cells incubated at 26 °C for 24 h; albeit this response of K584E-CFTR was 5-fold smaller than that of WT-CFTR at 37 °C.
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ABCC7 p.Lys584Glu 20551307:179:35
status: NEW
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ABCC7 p.Lys584Glu 20551307:179:258
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180 These data together with those of Fig. 4A (lane 6) indicate that, like F508del-CFTR (Fig. 4A, lane 6) (33), the processing of K584E-CFTR is temperature-sensitive.
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ABCC7 p.Lys584Glu 20551307:180:126
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181 At 26 °C, some K584E-CFTR protein is delivered to the cell membrane because the trafficking defect of this mutant was (at least partially) reverted at this permissive temperature.
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ABCC7 p.Lys584Glu 20551307:181:20
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182 To learn more about the stability of the K584E-, L581F-, and L581F/K584E-CFTR variants, we examined the turnover rate of FIGURE 3.
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ABCC7 p.Lys584Glu 20551307:182:41
status: NEW
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ABCC7 p.Lys584Glu 20551307:182:67
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187 TABLE 1 Summary information of CFTR point mutants analyzed in present study CFTR variants Clinical dataa Band C/band Bb (؎S.E., n ‫؍‬ 5) Processingc Normalized processingd Normalized iodide efflux functione (؎S.E., n ‫؍‬ 6) Iodide efflux to processed proteinf % % % % peak intensity % WT-CFTR -g 83 Ϯ 3 77 100 100 Ϯ 8 - Murine - 86 Ϯ 5 66 86 74 Ϯ 4 86 Ϯ 4 E527Q Mild CF 64 Ϯ 5 49 63 46 Ϯ 4 73 Ϯ 4 E528Q - 86 Ϯ 5 79 102 135 Ϯ 16 132 Ϯ 10 S531T - 87 Ϯ 6 81 105 71 Ϯ 5 67 Ϯ 5 K536Q - 69 Ϯ 3 42 54 51 Ϯ 4 94 Ϯ 3 I539T Revertant 112 Ϯ 5 81 105 49 Ϯ 6 46 Ϯ 5 L581F - 118 Ϯ 3 83 107 72 Ϯ 5 67 Ϯ 3 L581F/K584E - 125 Ϯ 2 77 100 100 Ϯ 12 100 Ϯ 8 T1263I Mild CF 75 Ϯ 3 76 98 31 Ϯ 8 31 Ϯ 5 P1290T Asymptomatic 87 Ϯ 3 82 106 92 Ϯ 10 86 Ϯ 6 K1302Q - 72 Ϯ 3 77 100 37 Ϯ 2 37 Ϯ 2 Y1307N - 82 Ϯ 2 76 98 70 Ϯ 5 71 Ϯ 3 Q1309K - 79 Ϯ 4 77 100 26 Ϯ 2 26 Ϯ 3 S1311K - 73 Ϯ 4 72 93 33 Ϯ 7 35 Ϯ 5 R1325K - 64 Ϯ 6 78 101 47 Ϯ 2 46 Ϯ 4 V1338T - 88 Ϯ 2 77 100 37 Ϯ 11 37 Ϯ 6 C1344Y - 71 Ϯ 4 76 98 86 Ϯ 4 87 Ϯ 4 L1367I - 72 Ϯ 5 80 103 36 Ϯ 5 34 Ϯ 5 D1394G - 78 Ϯ 4 86 111 93 Ϯ 12 83 Ϯ 8 E1409D - 70 Ϯ 3 70 90 43 Ϯ 5 47 Ϯ 4 a Data from the CFTR mutation database.
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ABCC7 p.Lys584Glu 20551307:187:786
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194 Pulse-chase analyses followed by CFTR immunoprecipitation (Fig. 4C) demonstrate that the turnover rates of band B of both L581F- (Fig. 4D, open squares) and L581F/K584E-CFTR (Fig. 4D, filled triangles) were the same as those of WT-CFTR (Fig. 4D, filled circles).
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ABCC7 p.Lys584Glu 20551307:194:163
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195 However, the turnover rate of K584E-CFTR (Fig. 4D, filled diamonds) was significantly (p Ͻ 0.05) reduced compared with those of L581F-, L581F/K584E-, WT-, and F508del-CFTR (Fig. 4D, open squares, filled triangles, filled circles, and open circles, respectively).
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ABCC7 p.Lys584Glu 20551307:195:30
status: NEW
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ABCC7 p.Lys584Glu 20551307:195:148
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196 Consistent with the data in Fig. 4D, the processing efficiencies of L581F- (Fig. 4E, open squares) and L581F/ K584E-CFTR (Fig. 4E, filled triangles) were not significantly different from those of WT-CFTR (Fig. 4D, filled circles).
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ABCC7 p.Lys584Glu 20551307:196:110
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197 Taken together, these data suggest that the immature form of K584E-CFTR is significantly stabilized compared with those of L581F-, L581F/K584E-, WT-, and even F508del-CFTR.
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ABCC7 p.Lys584Glu 20551307:197:61
status: NEW
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ABCC7 p.Lys584Glu 20551307:197:137
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198 Localization of K584E-, L581F-, and L581F/K584E-CFTR by Immunofluorescence-Our biochemical studies demonstrated that K584E-CFTR is only detected in its immature form, suggesting that it is misfolded and retained in the ER.
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ABCC7 p.Lys584Glu 20551307:198:16
status: NEW
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ABCC7 p.Lys584Glu 20551307:198:42
status: NEW
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ABCC7 p.Lys584Glu 20551307:198:117
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199 To test this possibility and learn whether the biochemically detected rescue of K584E-CFTR by L581F-CFTR (mature form) indeed corresponds to protein present at the cell surface, we used immunofluorescence and confocal microscopy.
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ABCC7 p.Lys584Glu 20551307:199:80
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200 Immunodetection of CFTR showed that the K584E-CFTR mutant (Fig. 5, C1) was predominately located intracellularly like F508del-CFTR (B1).
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ABCC7 p.Lys584Glu 20551307:200:40
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201 By contrast, L581F- (D1), L581F/ K584E- (E1), and WT-CFTR (A1) were mostly found at the plasma membrane co-localizing with wheat germ agglutinin FIGURE 4.
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ABCC7 p.Lys584Glu 20551307:201:33
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202 Rescue of trafficking defect of K584E-CFTR by L581F-CFTR.
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ABCC7 p.Lys584Glu 20551307:202:32
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203 A, biochemical analysis by Western blot of total protein extract from BHK cells stably expressing K584E (lane 1), L581F (lane 2), L581F/K584E (lane 3), WT (lane 4), F508del (lane 5), F508del at 26 °C (lane 6), and K584E at 26 °C (lane 7).
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ABCC7 p.Lys584Glu 20551307:203:98
status: NEW
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ABCC7 p.Lys584Glu 20551307:203:136
status: NEW
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ABCC7 p.Lys584Glu 20551307:203:219
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209 C, turnover and processing of WT-, F508del-, K584E-, L581F-, and L581F/K584E-CFTR determined in BHK cells stably expressing these CFTR variants by pulse-chase experiments followed by immunoprecipitation.
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ABCC7 p.Lys584Glu 20551307:209:45
status: NEW
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ABCC7 p.Lys584Glu 20551307:209:71
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217 We interpret these data to suggest that L581F rescues the cell surface expression of K584E, confirming our biochemical and functional data, which argue that L581F-CFTR is a revertant mutant for K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:217:85
status: NEW
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ABCC7 p.Lys584Glu 20551307:217:194
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218 Single Channel Behavior of Processing Mutant K584E-CFTR-In previous research, we demonstrated that revertant (e.g. G550E-CFTR (24)) and solubilizing mutations (e.g. F429S/F494N/Q637R (13)) rescue defects in CFTR channel gating in addition to promoting the cell surface expression of F508del-CFTR.
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ABCC7 p.Lys584Glu 20551307:218:45
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219 We therefore speculated that L581F-CFTR might augment the single channel activity of K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:219:85
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221 Fig. 6A demonstrates that addition of ATP (1 mM) and protein kinase A (75 nM) to the intracellular solution bathing excised inside-out membrane patches from cells expressing K584E-, L581F-, and L581F/K584E-CFTR cultured at 37 °C activated single channels with properties and regulation characteristic of wild-type CFTR.
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ABCC7 p.Lys584Glu 20551307:221:174
status: NEW
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ABCC7 p.Lys584Glu 20551307:221:200
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224 Consistent with the behavior of other CFTR variants containing point mutations in the NBDs (2), K584E-, L581F-, and L581F/K584E-CFTR had values of i similar to that of WT-CFTR (Fig. 6B).
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ABCC7 p.Lys584Glu 20551307:224:96
status: NEW
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ABCC7 p.Lys584Glu 20551307:224:122
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227 Visual inspection of single channel records suggested that the gating behavior of the CFTR variants K584E-, L581F-, and L581F/K584E-CFTR all resembled that of WT-CFTR (Fig. 6A).
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ABCC7 p.Lys584Glu 20551307:227:100
status: NEW
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ABCC7 p.Lys584Glu 20551307:227:126
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228 Consistent with this idea, the Po of L581F/ K584E-CFTR was the same as that of WT-CFTR, whereas those of K584E- and L581F-CFTR were slightly, albeit significantly (p Ͻ 0.05), reduced (Fig. 6C).
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ABCC7 p.Lys584Glu 20551307:228:44
status: NEW
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ABCC7 p.Lys584Glu 20551307:228:105
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229 Thus, K584E-CFTR profoundly FIGURE 5.
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ABCC7 p.Lys584Glu 20551307:229:6
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234 Single channel analysis of CFTR constructs K584E-, L581F-, and L581F/K584E-CFTR.
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ABCC7 p.Lys584Glu 20551307:234:43
status: NEW
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ABCC7 p.Lys584Glu 20551307:234:69
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237 For WT-, F508del-, K584E-, and L581F/ K584E-CFTR, membrane patches contained a single active channel, but for L581F-CFTR, the membrane patch contained two active channels.
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ABCC7 p.Lys584Glu 20551307:237:19
status: NEW
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ABCC7 p.Lys584Glu 20551307:237:38
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244 Of note, these effects of K584E-CFTR were rescued by the revertant mutation L581F-CFTR.
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ABCC7 p.Lys584Glu 20551307:244:26
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255 Indeed, the point mutant that we found to cause a failure in CFTR maturation (K584E-CFTR) lies exactly in this region.
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ABCC7 p.Lys584Glu 20551307:255:78
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274 Processing and Activity of Point Mutants in NBD1 and NBD2-Biochemical studies of CFTR variants identified by physicochemical distance analysis of residues in 12b-NBD1 revealed that the mutation K584E disrupts the maturation of CFTR protein.
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ABCC7 p.Lys584Glu 20551307:274:194
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285 Among the 20 point mutants described in this study (the above 18 point mutants plus L581F and L581F/K584E), we found four that are listed in the CFTR mutation database (CFTR mutation database), namely E527Q, T1263I, and P1290T, which are described in association with mild CF, and I539T, which is described as an F508del-revertant mutation (Table 1).
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ABCC7 p.Lys584Glu 20551307:285:100
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296 Characterization of K584E and Rescuing by Leu581 -Like F508del-CFTR (33), the trafficking defect of K584E-CFTR is temperature-sensitive.
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ABCC7 p.Lys584Glu 20551307:296:20
status: NEW
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ABCC7 p.Lys584Glu 20551307:296:100
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297 However, in contrast to F508del-CFTR, active K584E-CFTR Cl-channels could be detected in cells cultured at 37 °C using the single channel patch clamp, although this mutant could not be detected at the cell surface by immunocytochemistry or in its processed form by WB.
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ABCC7 p.Lys584Glu 20551307:297:45
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298 To investigate this discrepancy, we used our processing (Table 1) and single channel data (Fig. 6) to calculate predicted macroscopic currents for K584E-, L581F-, and L581F/K584E-CFTR and compared the values obtained with the magnitude of iodide efflux generated by these different CFTR constructs (Fig. 2C).
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ABCC7 p.Lys584Glu 20551307:298:147
status: NEW
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ABCC7 p.Lys584Glu 20551307:298:173
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304 Thus, these data provide a molecular explanation for the quantitative decrease in CFTR-mediated iodide efflux caused by K584E and for the rescuing action of L581F.
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ABCC7 p.Lys584Glu 20551307:304:120
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305 The different effects of K584E on CFTR processing and Cl-channel function are reminiscent of A455E and P574H, two CF mutations associated with a milder clinical phenotype (44).
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ABCC7 p.Lys584Glu 20551307:305:25
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308 A further explanation for the discrepancy between the processing (WB) and single channel patch clamp data of K584E-CFTR is that this trafficking mutant might escape the ER via a non-conventional route (46).
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ABCC7 p.Lys584Glu 20551307:308:109
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309 But this explanation has to be discarded because, by immunofluorescence, K584E-CFTR could not be detected at the plasma membrane.
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ABCC7 p.Lys584Glu 20551307:309:73
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310 It thus seems likely that only very little (below biochemical/immunofluorescence detection levels) of the K584E-CFTR reaches the cell surface, but once correctly inserted, this CFTR variant has a significant capacity to transport Cl- .
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ABCC7 p.Lys584Glu 20551307:310:106
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311 To understand the structural basis by which K584E disrupts the processing and function of CFTR, we used a model of full-length CFTR.5 This trafficking mutant lies on the highly conserved region of NBD1 where Glu584 is solvent-exposed and 5 R. Ford, personal communication.
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ABCC7 p.Lys584Glu 20551307:311:44
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312 TABLE 2 Comparison of predicted and measured CFTR-mediated iodide efflux for K584E-, L581F-, and L581F/K584E-CFTR N, the number of Cl-channels in the cell membrane; i, single-channel current; N ϫ i ϫ Po, the predicted CFTR-mediated iodide efflux based on CFTR processing and single channel data; ICFTR , measured CFTR-mediated iodide efflux.
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ABCC7 p.Lys584Glu 20551307:312:77
status: NEW
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ABCC7 p.Lys584Glu 20551307:312:103
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315 CFTR N i Po N ؋ i ؋ Po ICFTR % % % % % Wild type 100 100 100 100 100 F508del 5 104 12 1 0 K584E 1 90 73 1 0 L581F 107 88 81 75 72 L581F/K584E 100 91 103 93 100 Folding of CFTR Chimeras 27042 interacts with Leu581 .
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ABCC7 p.Lys584Glu 20551307:315:102
status: NEW
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ABCC7 p.Lys584Glu 20551307:315:148
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316 Accordingly, we changed the interacting residue in human CFTR (Leu581 ) to the corresponding residue in murine CFTR (Phe581 ) and found that it rescued the trafficking defect of K584E.
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ABCC7 p.Lys584Glu 20551307:316:178
status: NEW
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317 In the crystal structure of NBD1 (11, 12), it is likely that K584E disrupts the interaction of Lys584 with neighboring residues and, hence, the folding of NBD1.
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ABCC7 p.Lys584Glu 20551307:317:61
status: NEW
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318 The introduction of the L581F mutation likely restores the processing defect of K584E possibly mediated by the side chain of Phe581 that fills the empty space left by the removal of Lys584 .
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ABCC7 p.Lys584Glu 20551307:318:80
status: NEW
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319 Moreover, confirmation that both L581F and L581F/K584E are present at the cell surface was provided by functional studies (both iodide efflux and patch clamp).
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ABCC7 p.Lys584Glu 20551307:319:49
status: NEW
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326 We identified an NBD1 trafficking mutant (K584E) that, despite being inefficiently processed, exhibits some activity as a regulated Cl-channel.
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ABCC7 p.Lys584Glu 20551307:326:42
status: NEW
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327 Moreover, by using the available structure of NBD1, we predicted that substitution of another NBD1 residue (L581F) should restore the processing defect of K584E.
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ABCC7 p.Lys584Glu 20551307:327:155
status: NEW
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