ABCC7 p.Met837*

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PMID: 10933805 [PubMed] King SA et al: "R-domain interactions with distal regions of CFTR lead to phosphorylation and activation."
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4 A larger CFTR polypeptide that included the R-domain (M837X) also exhibited a phosphorylation-dependent mobility shift when coexpressed with ∆1-836.
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ABCC7 p.Met837* 10933805:4:54
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5 Moreover, coexpression of M837X and ∆1-836 led to enhanced halide permeability in living cells.
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ABCC7 p.Met837* 10933805:5:26
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27 1 Abbreviations: CF, cystic fibrosis; CFTR, cystic fibrosis transmembrane conductance regulator; ABC, ATP binding cassette; NBD, nucleotide binding domain; TMD, transmembrane domain; R-domain, regulatory domain; PKA, cyclic AMP-dependent protein kinase A; His P, NBD of histidine permease; His Q and His M, TMDs of histidine permease; Mal K, NBD region of the maltose transport system; Mal F, integral membrane protein of the maltose transport system; AMP, adenosine monophosphate; ∆R-CFTR, CFTR lacking amino acids 708-835; SDS-PAGE, sodium dodecyl sulfate-polyacrylamide gel electrophoresis; DMEM, Dulbecco`s Modified Eagle`s Medium; FBS, fetal bovine serum; vTF7.3, vaccina virus encoding the T7 polymerase; MOI, multiplicity of infection; DOC, deoxycholic acid; PVDF, poly- (vinylidene difluoride); NBT, 4-nitroblue tetrazolium chloride; SPQ, 6-methoxy-N-(3-sulfopropyl)quinolonium; BCIP, 5-bromo-4-chloro-3-indolyl phosphate; -gal, -galactosidase; ∆1-836, carboxy hemi-CFTR beginning immediately after the R-domain; M837X, CFTR truncation that ends at CFTR position 836, after the R-domain; G723X, CFTR truncation ending at residue 722 within the R-domain; K593X, CFTR truncation ending immediately before the R-domain at position 592.
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ABCC7 p.Met837* 10933805:27:1035
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52 pTM-M837X was produced by amplifying a segment of CFTR with a primer encoding nucleotides 1562-1585 (including the unique SphI restriction site) and a reverse primer containing nucleotides 2495-2529 (including a stop codon at residue 2515 followed by a StuI site).
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ABCC7 p.Met837* 10933805:52:4
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54 The pTM-R-domain was obtained using a PCR product to engineer a start site at methionine 596 and the stop site from pTM-M837X (leading to a vector expressing the R-domain protein, i.e., amino acids 596-837).
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ABCC7 p.Met837* 10933805:54:120
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111 Interactions between ∆1-836 and M837X Confer Phosphorylation of the R-Domain and ActiVation of Halide Efflux.
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ABCC7 p.Met837* 10933805:111:39
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112 To ascertain whether phosphorylation of the R-domain is enhanced by expression of the complete CFTR amino acid sequence, we transfected cells with both ∆1-836 and M837X (CFTR truncated at the end of the R-domain, Table 1).
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ABCC7 p.Met837* 10933805:112:170
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115 Immunoprecipitates from COS7 cells expressing M837X, ∆1-836, or both were studied by Western blotting, as shown in Figure 3.
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ABCC7 p.Met837* 10933805:115:46
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116 The M837X protein was pulled down in association with ∆1-836 (Figure 3A).
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ABCC7 p.Met837* 10933805:116:4
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117 The complementary experiment showed that ∆1-836 could also be co-immunoprecipitated in association with M837X (Figure 3B, lane 6).
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ABCC7 p.Met837* 10933805:117:111
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118 Neither M837X nor ∆1-836 bound to a control ( -gal) protein (Figure 3C).
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ABCC7 p.Met837* 10933805:118:8
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119 Interestingly, the M837X protein that co-immunoprecipitated with ∆1-836 was greatly enriched for an apparent higher-molecular weight conformation (Figure 3A, lane 4 with *).
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ABCC7 p.Met837* 10933805:119:19
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120 Direct immunoprecipitation of M837X indicated that the total level of shifted M837X protein was negligible when expressed alone (Figure 3A, lane 1).
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ABCC7 p.Met837* 10933805:120:30
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ABCC7 p.Met837* 10933805:120:78
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121 When M837X was coexpressed with ∆1-836, the higher protein band could be more readily detected, and was dramatically enriched bound to ∆1-836 (Figure 3A, lane 4).
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ABCC7 p.Met837* 10933805:121:5
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122 To test whether phosphorylation was responsible for the mobility shift in M837X, cells expressing M837X alone were treated with forskolin prior to lysis.
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ABCC7 p.Met837* 10933805:122:74
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ABCC7 p.Met837* 10933805:122:98
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123 Forskolin treatment reproduced the slower molecular weight migration in M837X (Figure 4A, lane 1).
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ABCC7 p.Met837* 10933805:123:72
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124 Alkaline phosphatase treatment of immunoprecipitated M837X protein abolished the higher-molecular weight band seen following either PKA stimulation or coexpression with ∆1-836 (Figure 4A, lanes 2 and 4).
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ABCC7 p.Met837* 10933805:124:53
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125 These results indicate that the expression of ∆1-836 with M837X confers a phosphorylation-dependent reduction in the mobility of M837X.
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ABCC7 p.Met837* 10933805:125:65
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ABCC7 p.Met837* 10933805:125:136
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126 Forskolin treatment did not cause phosphorylation of all the expressed R-domain or M837X.
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ABCC7 p.Met837* 10933805:126:83
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129 If this were so, only a subfraction of the R-domain or M837X might be situated within the cell in a position suitable for efficient phosphorylation by PKA.
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ABCC7 p.Met837* 10933805:129:55
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132 Since we observed that binding between M837X and ∆1-836 augments CFTR phosphorylation, we tested the functional consequences of this binding interaction.
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ABCC7 p.Met837* 10933805:132:39
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133 M837X, ∆1-836, or both were expressed in COS7 cells, and anion efflux was measured using the halide sensitive dye SPQ.
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ABCC7 p.Met837* 10933805:133:0
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134 Coexpression of M837X and ∆1-836 led to augmented cellular halide permeability (Figure 5, b), while no halide efflux above FIGURE 2: Forskolin treatment or coexpression with ∆1-836 produces an apparent higher-molecular weight R-domain protein that is sensitive to alkaline phosphatase.
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ABCC7 p.Met837* 10933805:134:16
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141 background was detected in cells expressing either M837X or ∆1-836 alone (Figure 5, 0 and O).
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ABCC7 p.Met837* 10933805:141:51
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142 Coexpression of M837X and ∆1-836 produced predominantly constitutive function of the reconstituted CFTR, similar to that reported previously for CFTR lacking a portion of the R-domain (∆R-CFTR) (15, 19).
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ABCC7 p.Met837* 10933805:142:16
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146 The increased halide efflux conferred by M837X and ∆1-836 could be either due to the loss of PKA-dependent regulation of CFTR [as demonstrated for ∆R-CFTR (15)] or a result of enhanced R-domain basal PKA phosphorylation.
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ABCC7 p.Met837* 10933805:146:41
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148 When cells coexpressing M837X and ∆1-836 were treated with Rp-8-CPT- cAMPS, a PKA antagonist, a significant decrease in the halide efflux was detected compared to that in untreated cells FIGURE 3: M837X binds ∆1-836.
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ABCC7 p.Met837* 10933805:148:24
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ABCC7 p.Met837* 10933805:148:204
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149 M837X, ∆1-836, or both were immunoprecipitated using an antibody specific to M837X, or to the C-terminal half.
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ABCC7 p.Met837* 10933805:149:0
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ABCC7 p.Met837* 10933805:149:84
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150 M837X co-immunoprecipitated with ∆1-836 (panel A, lane 4).
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ABCC7 p.Met837* 10933805:150:0
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151 The ∆1-836 was also detected following co-immunoprecipitation with M837X (panel B, lane 6).
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ABCC7 p.Met837* 10933805:151:74
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153 The asterisk denotes the shifted mobility form of M837X; see the text. The antibody used in Western blotting is defined at the right of each panel.
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ABCC7 p.Met837* 10933805:153:50
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154 FIGURE 4: Forskolin treatment or coexpression with ∆1-836 produces an apparent higher-molecular weight, alkaline phosphatase sensitive form of M837X.
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ABCC7 p.Met837* 10933805:154:150
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155 Lysates from cells expressing M837X, alone or together with ∆1-836 ("both"), were immunoprecipitated as described in the legend of Figure 3.
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ABCC7 p.Met837* 10933805:155:30
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157 M837X from cells treated with forskolin and M837X coexpressed with ∆1-836 resulted in an apparent higher-molecular weight M837X-CFTR protein band (*, lanes 1 and 3).
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ABCC7 p.Met837* 10933805:157:0
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ABCC7 p.Met837* 10933805:157:44
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ABCC7 p.Met837* 10933805:157:129
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158 The higher-molecular weight M837X protein band was eliminated by treatment with alkaline phosphatase (lanes 2 and 4).
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ABCC7 p.Met837* 10933805:158:28
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159 FIGURE 5: M837X and ∆1-836 coexpression produces elevated basal halide efflux.
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ABCC7 p.Met837* 10933805:159:10
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160 CFTR (9), M837X (0), ∆1-836 (O), or M837X and ∆1-836 (b) were expressed in COS7 cells, and halide efflux was assayed using the halide sensitive intracellular dye SPQ.
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ABCC7 p.Met837* 10933805:160:10
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ABCC7 p.Met837* 10933805:160:43
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163 Enhanced basal halide efflux following the switch to the dequench buffer was detected in cells coexpressing M837X and ∆1-836 (p < 0.001), and regulated halide efflux was seen with expression of CFTR upon forskolin stimulation (p < 0.001).
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ABCC7 p.Met837* 10933805:163:108
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164 No enhanced halide movement was detected when either M837X or ∆1-836 was expressed alone.
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ABCC7 p.Met837* 10933805:164:53
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170 These results indicate that enhanced PKA-dependent phosphorylation of M837X is responsible for the high basal halide efflux produced following coexpression of M837X and ∆1-836.
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ABCC7 p.Met837* 10933805:170:70
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ABCC7 p.Met837* 10933805:170:159
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171 The Carboxy Region of the R-Domain Is Necessary for the Phosphorylation-Dependent M837X Mobility Shift and PKA-Dependent Halide Efflux.
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ABCC7 p.Met837* 10933805:171:82
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172 To examine R-domain residues that are necessary for the phosphorylation of M837X elicited by ∆1-836, we tested shortened CFTR truncations missing part or all of the R-domain for functional and biochemical interactions with ∆1-836.
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ABCC7 p.Met837* 10933805:172:75
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174 While G723X co-immunoprecipitated with ∆1-836 in a manner similar to that of M837X, this interaction did not result in a mobility shift of the G723X protein (Figure 7A, compare lanes 3 and 4).
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ABCC7 p.Met837* 10933805:174:84
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179 K593X (CFTR truncated immediately before the R-domain, Table 1) co-immunoprecipitated with ∆1-836 in a manner similar to that of M837X or G723X (data not shown), but coexpression of K593X with ∆1-836 failed to produce enhanced halide efflux (Figure 8A).
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ABCC7 p.Met837* 10933805:179:136
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186 Enhanced phosphorylation of the R-domain was also observed when the first half of CFTR, M837X (CFTR truncated immediately after the R-domain), was treated with forskolin or coexpressed with ∆1-836.
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ABCC7 p.Met837* 10933805:186:88
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189 In contrast to M837X, G723X failed to exhibit a reduced mobility on SDS-PAGE after either coexpression with ∆1FIGURE 6: Halide permeability produced by M837X and ∆1-836 is PKA-dependent.
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ABCC7 p.Met837* 10933805:189:15
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ABCC7 p.Met837* 10933805:189:159
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190 M837X (2) or M837X and ∆1-836 (9) were expressed in COS7 cells.
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ABCC7 p.Met837* 10933805:190:0
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ABCC7 p.Met837* 10933805:190:13
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191 Cells expressing M837X and ∆1-836 were treated with Rp-8-CPT-cAMPS (b), a PKA antagonist.
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ABCC7 p.Met837* 10933805:191:17
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194 Rp-8-CPT-cAMPS dramatically inhibited the halide permeability of M837X and ∆1-836 (p < 0.05).
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ABCC7 p.Met837* 10933805:194:65
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195 Permeability coefficients (average changes in flourescence per 20 s from 80 to 120 s) were -2.2 (M837X), -12.3 (M837X and ∆1-836), and -3.9 (M837X and ∆1-836, with Rp-8CPT-cAMPS treatment).
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ABCC7 p.Met837* 10933805:195:97
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ABCC7 p.Met837* 10933805:195:112
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ABCC7 p.Met837* 10933805:195:148
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199 While both G723X and M837X bind ∆1-836 (lanes 3 and 4), only the interaction of M837X with ∆1-836 produced a higher-molecular weight phosphorylated protein (*, lane 3).
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ABCC7 p.Met837* 10933805:199:21
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ABCC7 p.Met837* 10933805:199:87
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200 (B) Cells expressing M837X or G723X were treated with forskolin prior to lysis (as described in the legend of Figure 4).
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ABCC7 p.Met837* 10933805:200:21
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201 M837X from cells treated with forskolin appeared as an apparent higher-molecular weight M837X-CFTR protein band (*, lane 2).
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ABCC7 p.Met837* 10933805:201:0
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ABCC7 p.Met837* 10933805:201:88
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207 M837X coexpressed with ∆1-836 resulted in high-level CFTR activity (as detected by SPQ, Figure 5) in the absence of additional PKA stimulation, indicating that R-domain interactions with downstream domains can augment R-domain phosphorylation and directly regulate CFTR function.
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ABCC7 p.Met837* 10933805:207:0
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209 In contrast to ∆R-CFTR, the basal activity of M837X with ∆1-836 reported in this study was PKA-dependent, and could be inhibited by the PKA antagonist Rp-8-CPT-cAMPS.
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ABCC7 p.Met837* 10933805:209:53
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210 Therefore, while ∆R-CFTR functions independently of PKA, the high basal activity conferred by coexpression of M837X with ∆1-836 results from a different, phosphorylation-dependent mechanism.
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ABCC7 p.Met837* 10933805:210:117
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212 However, in contrast to M837X, the activity could not be inhibited by PKA antagonists (Figure 8B), a result similar to the activity reported for ∆R-CFTR.
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ABCC7 p.Met837* 10933805:212:24
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213 On the basis of the observations that (1) the level of the phosphorylation-dependent higher-molecular weight M837X was dramatically increased when it was bound to ∆1-836, (2) a high basal halide permeability was produced by coexpression of M837X with ∆1-836, and (3) this activity was suppressed by PKA inhibitors, we conclude that R-domain phosphorylation and CFTR activation were promoted by R-domain interactions with downstream elements of CFTR.
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ABCC7 p.Met837* 10933805:213:109
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ABCC7 p.Met837* 10933805:213:247
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214 The increased susceptibility of the R-domain to PKA phosphorylation in the two-subunit model of CFTR (M837X and ∆1-836) may reflect greater accessibility of the R-domain to endogenous PKA, or blockade of phosphatase action.
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ABCC7 p.Met837* 10933805:214:102
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230 G723X produced high basal halide permeability when coexpressed with ∆1-836 (p < 0.01) similar to that of M837X with ∆1-836 (Figure 5).
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ABCC7 p.Met837* 10933805:230:112
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234 (B) M837X and ∆1-836 (0) or G723X and ∆1-836 (O) were expressed in COS7 cells and assayed for halide movement as described in the legend of Figure 6.
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ABCC7 p.Met837* 10933805:234:4
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235 Rp-8-CPT- cAMPS inhibited the enhanced halide permeability of M837X and ∆1-836 (9, p < 0.05), but not that of G723X and ∆1-836 (b).
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ABCC7 p.Met837* 10933805:235:62
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