ABCMdb

ABCC7 p.Arg347Lys

ClinVar:	c.1039C>T , p.Arg347Cys ? , not provided c.1040G>A , p.Arg347His D , Pathogenic c.1040G>T , p.Arg347Leu D , Pathogenic c.1040G>C , p.Arg347Pro D , Pathogenic
CF databases:	c.1040G>C , p.Arg347Pro D , CF-causing ; CFTR1: This mutation destroys a Hha I restriciton site and creates an NcoI site and occurred in a family diagnosed as PS. The mutation have been identified and analyzed using the SSCP technique. c.1040G>A , p.Arg347His D , CF-causing ; CFTR1: The patient is of Italian origin and carries the [delta]F508 mutation on the other chromosome. Initially we thought this was the same mutation as R347 because it destroys the same hhai site; however, R347H does not create the NcoI site. c.1040G>T , p.Arg347Leu (CFTR1) D , A nucleotide change, G->T at position 1172, was detected leading to R347L. The other chromosome carries a [delta]F508. This mutation was found on one chromosome among 150 CF chromosomes screened. c.1039C>T , p.Arg347Cys (CFTR1) ? , This mutation was identified by DGGE and direct sequencing.
Predicted by SNAP2:	A: D (95%), C: D (95%), D: D (95%), E: D (95%), F: D (95%), G: D (95%), H: D (71%), I: D (95%), K: D (95%), L: D (80%), M: D (95%), N: D (95%), P: D (75%), Q: D (95%), S: D (95%), T: D (95%), V: D (95%), W: D (95%), Y: D (95%),
Predicted by PROVEAN:	A: N, C: D, D: D, E: N, F: D, G: D, H: N, I: D, K: N, L: N, M: N, N: N, P: N, Q: N, S: N, T: N, V: D, W: D, Y: D,

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[hide] Cystic fibrosis-associated mutations at arginine 3... J Biol Chem. 1999 Feb 26;274(9):5429-35. Cotten JF, Welsh MJ
Cystic fibrosis-associated mutations at arginine 347 alter the pore architecture of CFTR. Evidence for disruption of a salt bridge.
J Biol Chem. 1999 Feb 26;274(9):5429-35., 1999-02-26 [PMID:10026154]

Abstract [show]
Arginine 347 in the sixth transmembrane domain of cystic fibrosis transmembrane conductance regulator (CFTR) is a site of four cystic fibrosis-associated mutations. To better understand the function of Arg-347 and to learn how mutations at this site disrupt channel activity, we mutated Arg-347 to Asp, Cys, Glu, His, Leu, or Lys and examined single-channel function. Every Arg-347 mutation examined, except R347K, had a destabilizing effect on the pore, causing the channel to flutter between two conductance states. Chloride flow through the larger conductance state was similar to that of wild-type CFTR, suggesting that the residue at position 347 does not interact directly with permeating anions. We hypothesized that Arg-347 stabilizes the channel through an electrostatic interaction with an anionic residue in another transmembrane domain. To test this, we mutated anionic residues (Asp-924, Asp-993, and Glu-1104) to Arg in the context of either R347E or R347D mutations. Interestingly, the D924R mutation complemented R347D, yielding a channel that behaved like wild-type CFTR. These data suggest that Arg-347 plays an important structural role in CFTR, at least in part by forming a salt bridge with Asp-924; cystic fibrosis-associated mutations disrupt this interaction.

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No. Sentence Comment
2 Every Arg347 mutation examined, except R347K, had a destabilizing effect on the pore, causing the channel to flutter between two conductance states. Login to comment
24 To better understand the role of Arg-347 in CFTR structure and function, we examined the effect of mutating Arg-347 to cysteine, aspartic acid, glutamic acid, lysine, and leucine on CFTR conductance. Login to comment
25 We examined the cytosolic pH (pHc)-dependent behavior of CFTR-R347H and that of the other residue 347 mutants both with (R347C, R347D, R347E, and R347K) and without (R347L) a pHc-titratable residue. Login to comment
40 Moreover, like CFTR-R347H, all the other residue 347 mutants, except R347K, displayed two pHc-dependent conductance states over a similar pHc range. Login to comment
75 Unexpectedly, all the other variants at residue 347, except R347K, showed two pHc-dependent conductance states over a similar pH range. Login to comment
77 The conservative substitution of Arg-347 by Lys (R347K) showed only a single conductance state and no pHc dependence. Login to comment
82 The all-points histograms (Fig. 1) illustrate qualitatively that as pHc increased, each mutant except R347K spent an increased fraction of time in OL and a correspondingly decreased fraction of time in OB. Login to comment
84 Wild-type CFTR and R347K possess only one predominant conductance state over the pHc range 5.5-7.3 (Fig. 1, data not shown, and Ref. 8). Login to comment
91 Single-channel Conductance of Residue 347 Mutants-To determine whether the residue at position 347 affects single-channel conductance and not merely the conductance state of the channel, we examined the I-V relationship and slope conductance of the mutants with slower pHc-dependent kinetics, R347H and R347E, as well as R347K. Login to comment
94 The single-channel conductance at pHc 6.0 of wild-type CFTR, R347K, and the OB state of R347E and R347H were all very similar (in pS): 7.7 Ϯ 0.4, 8.3 Ϯ 0.6, 7.4 Ϯ 0.4, and 6.9 Ϯ 0.2, respectively (n ϭ 3 for each). Login to comment
119 Single-channel I-V relationships for R347E (OL and OB states), R347H (OL and OB states), R347K, R347D/D924R, and wild-type CFTR at pHc 6.0. n ϭ 2-4 at each data point. Login to comment
177 The OB and OL Conductance States-All the mutants except R347K showed two pH-dependent conductance states. Login to comment

[hide] Mutations at arginine 352 alter the pore architect... J Membr Biol. 2008 Mar;222(2):91-106. Epub 2008 Apr 18. Cui G, Zhang ZR, O'Brien AR, Song B, McCarty NA
Mutations at arginine 352 alter the pore architecture of CFTR.
J Membr Biol. 2008 Mar;222(2):91-106. Epub 2008 Apr 18., [PMID:18421494]

Abstract [show]
Arginine 352 (R352) in the sixth transmembrane domain of the cystic fibrosis transmembrane conductance regulator (CFTR) previously was reported to form an anion/cation selectivity filter and to provide positive charge in the intracellular vestibule. However, mutations at this site have nonspecific effects, such as inducing susceptibility of endogenous cysteines to chemical modification. We hypothesized that R352 stabilizes channel structure and that charge-destroying mutations at this site disrupt pore architecture, with multiple consequences. We tested the effects of mutations at R352 on conductance, anion selectivity and block by the sulfonylurea drug glipizide, using recordings of wild-type and mutant channels. Charge-altering mutations at R352 destabilized the open state and altered both selectivity and block. In contrast, R352K-CFTR was similar to wild-type. Full conductance state amplitude was similar to that of wild-type CFTR in all mutants except R352E, suggesting that R352 does not itself form an anion coordination site. In an attempt to identify an acidic residue that may interact with R352, we found that permeation properties were similarly affected by charge-reversing mutations at D993. Wild-type-like properties were rescued in R352E/D993R-CFTR, suggesting that R352 and D993 in the wild-type channel may interact to stabilize pore architecture. Finally, R352A-CFTR was sensitive to modification by externally applied MTSEA+, while wild-type and R352E/D993R-CFTR were not. These data suggest that R352 plays an important structural role in CFTR, perhaps reflecting its involvement in forming a salt bridge with residue D993.

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No. Sentence Comment
22 Incontrast, R347K-CFTR exhibited permeation properties similar to those of wild-type (WT)-CFTR. Login to comment

[hide] Two salt bridges differentially contribute to the ... J Biol Chem. 2013 Jul 12;288(28):20758-67. doi: 10.1074/jbc.M113.476226. Epub 2013 May 24. Cui G, Freeman CS, Knotts T, Prince CZ, Kuang C, McCarty NA
Two salt bridges differentially contribute to the maintenance of cystic fibrosis transmembrane conductance regulator (CFTR) channel function.
J Biol Chem. 2013 Jul 12;288(28):20758-67. doi: 10.1074/jbc.M113.476226. Epub 2013 May 24., [PMID:23709221]

Abstract [show]
Previous studies have identified two salt bridges in human CFTR chloride ion channels, Arg(352)-Asp(993) and Arg(347)-Asp(924), that are required for normal channel function. In the present study, we determined how the two salt bridges cooperate to maintain the open pore architecture of CFTR. Our data suggest that Arg(347) not only interacts with Asp(924) but also interacts with Asp(993). The tripartite interaction Arg(347)-Asp(924)-Asp(993) mainly contributes to maintaining a stable s2 open subconductance state. The Arg(352)-Asp(993) salt bridge, in contrast, is involved in stabilizing both the s2 and full (f) open conductance states, with the main contribution being to the f state. The s1 subconductance state does not require either salt bridge. In confirmation of the role of Arg(352) and Asp(993), channels bearing cysteines at these sites could be latched into a full open state using the bifunctional cross-linker 1,2-ethanediyl bismethanethiosulfonate, but only when applied in the open state. Channels remained latched open even after washout of ATP. The results suggest that these interacting residues contribute differently to stabilizing the open pore in different phases of the gating cycle.

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No. Sentence Comment
89 A, representative current samples of WT-, R347A-, R347D-, D924R-, R347K-, and R347D/D924R-CFTR were recorded from excised inside-out patch from Xenopus oocytes with 150 mM Clafa; symmetrical solution in the presence of 1 mM Mg-ATP and 50 nM PKA at VM afd; afa;100 mV (n afd; 4-6 for each mutant). Login to comment
95 R347K-CFTR, retaining the positive charge of arginine, showed behavior similar to WT-CFTR (afa;0.72 afe; 0.02 pA, n afd; 7) but with a slightly larger single channel amplitude (afa;0.89 afe; 0.01 pA, n afd; 4, p b0d; 0.05). Login to comment
99 In all of the Arg347 and Asp924 mutants described above, other than R347K, transitions to the f state did not lead to stable occupancy of that state. Login to comment
109 We therefore hypothesized that Arg347 might also interact with Asp993 to rescue the CFTR channel pore to a stable f state and tested this hypothesis in three double mutants; TABLE 1 Summary of the effects of mutations studied Mutant Main features of open bursts Impact on f state R347A Emphasizes s1 state, brief transitions to s2 and f Can reach f but not stable R347D Emphasizes s1 state, no transitions to s2 and f Cannot reach f D924R Brief transitions to all conductance levels Can reach f but not stable R347K Wild type-like Wild type-like R347D/D924R Emphasizes s2 state, rare and brief transitions to f Can reach f but not stable R352E Opens to all 3 levels; s1 much more stable than in WT, s2 unstable, f unstable Can reach f but not stable D993R Opens to all 3 levels, but none are stable Can reach f but not stable R352E/D993R Wild type-like, with increased transitions to s1 and s2; slightly reduced single-channel conductance Wild type-like R352E/D924R Opens to all 3 levels, but none are stable Can reach f but not stable R347D/D993R Very stable s2; rare and brief transitions to both s1 and f Can reach f but not stable R347A/R352A Opens to all 3 levels; s1 much more stable than in WT, s2 unstable, f unstable Can reach f but not stable R347D/D924R/D993R Opens to all 3 levels; s1 much more stable than in WT, s2 relatively stabilized, f unstable Can reach f but not stable R347D/D924R/R352E/D993R Primarily flickers between s2 and f; s1 much more stable than in WT, slightly reduced single channel conductance Can reach f but not stable FIGURE 3. Login to comment