ABCMdb

ABCC7 p.Ser1141Ala

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Publications

PMID: 16442101 [PubMed] Frelet A et al: "Insight in eukaryotic ABC transporter function by mutation analysis."

No. Sentence Comment

376 Gupta et al. [178] have examined the effect of T1134A, M1137A, N1138A, S1141A and T1142A and found that, in contrast to those in TM6, mutations in TM12 have little effect on channel permeation properties, suggesting that TM6 and TM12 make highly asymmetric contributions to the pore. Login to comment

PMID: 11380256 [PubMed] Gupta J et al: "Asymmetric structure of the cystic fibrosis transmembrane conductance regulator chloride channel pore suggested by mutagenesis of the twelfth transmembrane region."

No. Sentence Comment

79 Five alanine-substitution mutations in TM12 were constructed: T1134A, M1137A, N1138A, S1141A, and T1142A (Figure 1B). Login to comment
81 Expression of these same mutants in CHO cells yielded similar results (data not shown), with the exception that S1141A expression could not be detected. Login to comment
92 Block of N1138A (Figure 2B), as well as T1134A, M1137A, and T1142A (data not shown), appeared somewhat weaker than for wild-type, whereas block of S1141A actually appeared stronger than for wild-type (Figure 2B). Login to comment
96 As described above, S1141A could not be expressed in CHO cells; however, unitary S1141A-CFTR Table 1: Relative Anion Permeabilities for Wild-Type and Mutant CFTRa wild-type T1134A M1137A N1138A S1141A T1142A Cl 1.00 ( 0.01 (10) 1.00 ( 0.06 (5) 1.00 ( 0.03 (6) 1.00 ( 0.02 (4) 1.00 ( 0.02 (5) 1.00 ( 0.04 (7) Br 1.37 ( 0.07 (8) 1.42 ( 0.03 (4) 1.61 ( 0.02 (5)* 1.32 ( 0.08 (7) 1.54 ( 0.05 (4) 1.44 ( 0.04 (5) I 0.83 ( 0.03 (6) 0.85 ( 0.04 (4) 0.88 ( 0.02 (3) 0.83 ( 0.03 (4) 0.78 ( 0.01 (3) 0.86 ( 0.03 (3) F 0.103 ( 0.007 (9) 0.077 ( 0.008 (3) 0.107 ( 0.014 (3) 0.089 ( 0.005 (4) 0.053 ( 0.003 (7)** 0.094 ( 0.007 (3) SCN 3.55 ( 0.26 (7) 3.70 ( 0.33 (4) 3.58 ( 0.14 (5) 3.53 ( 0.21 (6) 3.37 ( 0.35 (3) 3.64 ( 0.22 (5) NO3 1.58 ( 0.04 (10) 1.62 ( 0.05 (4) 1.60 ( 0.04 (3) 1.58 ( 0.05 (6) 1.57 ( 0.03 (3) 1.64 ( 0.07 (3) ClO4 0.25 ( 0.01 (8) 0.22 ( 0.00 (3) 0.29 ( 0.02 (3) 0.44 ( 0.05 (5)** 0.22 ( 0.01 (3) 0.30 ( 0.03 (5) formate 0.24 ( 0.01 (9) 0.26 ( 0.01 (3) 0.27 ( 0.03 (3) 0.27 ( 0.01 (4) 0.26 ( 0.02 (4) 0.25 ( 0.03 (3) acetate 0.091 ( 0.003 (10) 0.102 ( 0.021 (3) 0.103 ( 0.011 (3) 0.087 ( 0.022 (3) 0.066 ( 0.007 (4)* 0.086 ( 0.009 (3) a Relative permeabilities (PX/PCl) for different anions present in the intracellular solution under biionic conditions were calculated from macroscopic current reversal potentials according to eq 1 (see Experimental Procedures), as described in detail previously (16, 20, 36). Login to comment
107 (B) Mean current remaining following addition of 10 mM SCN- (I/I0) for wild-type (O), N1138A (b, left panel) and S1141A (b, right panel), shown as a function of voltage. Login to comment
109 Block by SCN- appeared somewhat weakened in N1138A (left), as well as in T1134A, M1137A and T1142A (data not shown, but see Figure 5B), and strengthened in S1141A (right). Login to comment
112 All unitary currents were recorded in CHO cell patches, except S1141A, which was recorded in BHK cell patches. Login to comment
120 Because of the differences in CFTR channel gating between BHK and CHO cell membrane patches, the PO of S1141A was not measured. Login to comment
128 However, the degree of block was significantly reduced in T1134A, M1137A, and S1141A compared to wild-type (Figure 5). Login to comment
136 (A) Unitary currents carried by wild-type and S1141A-CFTR at -50 mV, with symmetrical 154 mM Cl-containing solutions (control) or after addition of 10 mM NaSCN to the intracellular solution. Login to comment
144 However, for N1138A, S1141A, and T1142A, different degrees of inhibition were observed, suggesting that SCN- has some other effect on these mutants which is both distinct from the observed reduction in unitary current amplitude and absent in wild-type CFTR. Since the single channel results report the isolated effects of SCN- on unitary current amplitude, which is presumably determined by the relative tightness of SCN- binding within the pore, we believe that the reduced apparent SCN- binding affinity suggested by the single channel results with T1134A, M1137A, and S1141A is the best reporter of altered pore function in these mutants. Login to comment
174 Block of unitary Cl- currents by SCN- was significantly weakened in T1134A, M1137A, and S1141A compared to wild-type (Figure 5). Login to comment

PMID: 11889571 [PubMed] Gupta J et al: "Point mutations in the pore region directly or indirectly affect glibenclamide block of the CFTR chloride channel."

No. Sentence Comment

63 While block of the TM12 mutants S1141A (Fig. 1) and T1134A and M1137A (data not shown) was indistinguishable from wild-type, block was significantly weakened in the TM6 mutants F337A and T338A, and significantly strengthened in the TM12 mutants N1138A and T1142A (Fig. 1). Login to comment
71 In contrast, I/I0 was not altered in T1134A, M1137A or S1141A at any voltage (data not shown). Login to comment
116 This does not appear to be a nonspecific effect of mutagenesis within TM12, since three other mutations in this region (T1134A, M1137A, S1141A) had no effect on glibenclamide block (Fig. 3). Login to comment
135 Interestingly, these two mutations did not affect SCN- block, although other TM12 mutants (T1134A, M1137A, S1141A) did [10], suggesting that Cl- and SCN- binding may be controlled by different structural features within TM12. Login to comment

PMID: 9922376 [PubMed] Dawson DC et al: "CFTR: mechanism of anion conduction."

No. Sentence Comment

576 An analogous tions with the peptide backbone of this model system might produce energy minima that would behave as bind-substitution in TM12 (S1141A) did not alter anion conduction or DPC block but, if residues surrounding S1141 were ing sites. Login to comment

PMID: 22160394 [PubMed] Cui G et al: "Differential contribution of TM6 and TM12 to the pore of CFTR identified by three sulfonylurea-based blockers."

No. Sentence Comment

163 Effects on time-dependent block by mutations R334A and K335A Fractional block by Glip200 μM V1153A D1152A I1151A S1150A S1149A N1148A V1147A A1146S W1145A Q1144A L1143A T1142A S1141A M1140A I1139A N1138A M1137A A1136S L1135A T1134A WT 0 0.2 0.4 0.6 0.8 * ** ** ** ** ** ** * V1153A D1152A I1151A S1150A S1149A N1148A V1147A A1146S W1145A Q1144A L1143A T1142A S1141A M1140A I1139A N1138A M1137A A1136S L1135A T1134A WT 0 0.2 0.4 0.6 0.8 1.0 * * * * * ** ** ** ** Fractional block by Glyb50 μM Fig. 4 Alanine-scanning in TM12 to identify amino acids that interact with Glyb and Glip. Login to comment
192 S1141A (-0.83±0.02 pA, n=5) increased and T1134A (-0.59±0.02 pA, n=4) decreased single-channel full open state amplitude compared to WT-CFTR (-0.70±0.03 pA, n=10; Fig. 9). Login to comment
239 Hence, strong time-dependent block of macropatch currents, and the appearance of multiple drug-induced closed states in single-channel recordings, may not arise from 0.4 pA 2 s M348A c f 0.2 pA 2 s F337A c f 0.4 pA 2 s K335A c f 0.4 pA 2 s c s2 f D1152A 0.4 pA 2 s T1134A c f 0.4 pA 2 s S1141A c f s2 0.4 pA 2 s c f WT 2000 4000 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 3000 9000 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 6000 400 1200 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 800 1600 1000 3000 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 2000 500 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 1000 4000 12000 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 8000 200 600 #ofevents 0.0 -0.5 -1.0 Current (pA) -1.50.5 400 Fig. 9 Representative single-channel traces for WT-, K335A-, F337A-, M348A-, T1134A-, S1141A-, and D1152A-CFTR (left) from excised inside-out membrane patches with symmetrical 150 mM Cl- solution, and their all-points amplitude histograms (right). Login to comment

PMID: 7522483 [PubMed] McDonough S et al: "Novel pore-lining residues in CFTR that govern permeation and open-channel block."

No. Sentence Comment

61 The DPC-Binding Site Can Be Moved to TM 12 S1141 in TM 12 had a predicted position analogous to that of S341 in TM 6 (Figure I), yet mutation S1141A I (/AA) Figure 3. Login to comment
78 Affinity and Voltage Dependence for Block of CFTR Variants by DPC Construct TM Ko( - 100) (PM) 0 I-V Relation n Properties Wild type Wild type low [Cl-], (10 mM) K335E 6 K335F 6 T338A 6 T339A 6 S341A 6 S341T 6 S1118A 11 T1134A 12 T1134F 12 S1141A 12 Triple 6,12 276 f 14 181 f 13" 303 -t 14 351 * 15' 220 * 14 284 * 47 1251 f 116a 530 f 80" 243 * 37 230 * 20 74 * 3" 220 * 13 325 * 26b 0.41 f 0.01 0.32 f 0.02" 0.42 f 0.01 0.42 f 0.02 0.36 f 0.02" 0.44 * 0.12 0.49 * 0.03" 0.35 f 0.09 0.40 f 0.02 0.35 * 0.02" 0.41 f 0.01 0.42 f 0.03 0.21 * O.Ol",b Linear, E,,, = -8 f 1 mV Ere\ = +48+2mV Inward rectification Linear Linear Linear Strong inward rectification Inward rectification Linear Linear Linear Linear Strong inward rectification Affinity for DPC was determined empirically at -100 mV, from whole-cell currents measured in the presence of 200 uM DPC (see Experimental Procedures). Login to comment

PMID: 23709221 [PubMed] Cui G et al: "Two salt bridges differentially contribute to the maintenance of cystic fibrosis transmembrane conductance regulator (CFTR) channel function."

No. Sentence Comment

20 Infrequent subconductance behavior is seen in some CFTR mutants, such as T338A/Cand S1141A-CFTR (7, 12). Login to comment