2021
DOI: 10.1016/j.jbc.2021.100598
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The CFTR P67L variant reveals a key role for N-terminal lasso helices in channel folding, maturation, and pharmacologic rescue

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Cited by 28 publications
(34 citation statements)
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“…One key feature of allostery may be linked to the shift of the lasso Lh2 upon VX-809 binding and the associated interaction of D47 with K162, allowing a synergy between three communication pathways leading from MSD1 to K162 (the TM2 way: M152 K162; two elbow-Lh2 ways: (i) R74 R75 E56 D47 K162, (ii) R74 R75 E56 E54 K163 K162) (Table S1). The critical role played by this pivotal interface in CFTR assembly and pharmacological repair, is also highlighted by other recent studies focused on ICL1 and Lh2 [8,73,74]. These results presented here in the F508del background indicate the necessity of stabilizing inter-domain folding steps to efficiently rescue misfolded F508del, contrary to L206W (Fig.…”
Section: Discussionsupporting
confidence: 79%
“…One key feature of allostery may be linked to the shift of the lasso Lh2 upon VX-809 binding and the associated interaction of D47 with K162, allowing a synergy between three communication pathways leading from MSD1 to K162 (the TM2 way: M152 K162; two elbow-Lh2 ways: (i) R74 R75 E56 D47 K162, (ii) R74 R75 E56 E54 K163 K162) (Table S1). The critical role played by this pivotal interface in CFTR assembly and pharmacological repair, is also highlighted by other recent studies focused on ICL1 and Lh2 [8,73,74]. These results presented here in the F508del background indicate the necessity of stabilizing inter-domain folding steps to efficiently rescue misfolded F508del, contrary to L206W (Fig.…”
Section: Discussionsupporting
confidence: 79%
“…These results confirm the mechanistic classification of the correctors as proposed earlier [ 19 , 20 , 27 ] and show that mutations, which are highly responsive to stabilization of the MSD1 and MSD1-NBD1, can be further corrected by correctors targeting the NBD1 or NBD2. This is in agreement with a recent study reporting that P67L impairs folding of downstream domains including the NBD1 and NBD2 [ 44 ].…”
Section: Resultssupporting
confidence: 94%
“…These structures have provided insights into the molecular mechanisms of CFTR channel function, i.e., its anion conductance pathway [ 35 ], as well as identified new features not previously described in ABC transporters, such as the N-terminal lasso motif [ 32 ]. This motif is of importance for CFTR channel gating as well as for folding of downstream domains and thereby might (partially) explain the molecular mechanism of several missense mutations located within this motif or in its vicinity [ 36 , 37 , 38 ]. Cryo-EM was further also used to determine the binding site of CFTR corrector VX-809 ( see Section 3.2.1 .…”
Section: One Size Does Not Fit Allmentioning
confidence: 99%