Computational analysis of long-range allosteric communications in CFTR

Ayca, Ersoy; Bengi, Altintel; Nurit, Livnat Levanon; Nir, Ben-Tal; Turkan, Haliloglu; Oded, Lewinson

doi:10.1101/2023.06.07.543997

Cited by 2 publications

(1 citation statement)

References 88 publications

(182 reference statements)

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“…5h), consistent with the function of multiple inter-domain allosteric networks in CFTR (Fig. 3c) 70 . The significance of the reciprocity of inter- domain coupling is also underscored by the P67L-CFTR partial rescue by introducing the 6SS- suppressors in the NBD1 (Fig.…”

Section: Resultssupporting

confidence: 82%

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain-domain coupling

Soya,

Xu,

Roldan

et al. 2023

Preprint

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The folding/misfolding and pharmacological rescue of multidomain ATP-binding cassette (ABC) C-subfamily transporters, essential for organismal health, remain incompletely understood. The ABCC transporters core consists of two nucleotide binding domains (NBD1,2) and transmembrane domains (TMD1,2). Using molecular dynamic simulations, biochemical and hydrogen deuterium exchange approaches, we show that the mutational uncoupling or stabilization of NBD1-TMD1/2 interfaces can compromise or facilitate the CFTR(ABCC7)-, MRP1(ABCC1)-, and ABCC6-transporters posttranslational coupled domain-folding in the endoplasmic reticulum. Allosteric or orthosteric binding of VX-809 and/or VX-445 folding correctors to TMD1/2 can rescue kinetically trapped CFTR post-translational folding intermediates of cystic fibrosis (CF) mutants of NBD1 or TMD1 by global rewiring inter-domain allosteric-networks. We propose that dynamic allosteric domain-domain communications not only regulate ABCC-transporters function but are indispensable to tune the folding landscape of their post-translational intermediates. These allosteric networks can be compromised by CF-mutations, and reinstated by correctors, offering a framework for mechanistic understanding of ABCC-transporters (mis)folding.

show abstract

Section: Resultssupporting

confidence: 82%

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain-domain coupling

Soya,

Xu,

Roldan

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain–domain coupling

Soya,

Xu,

Roldan

et al. 2023

Nat Commun

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The folding/misfolding and pharmacological rescue of multidomain ATP-binding cassette (ABC) C-subfamily transporters, essential for organismal health, remain incompletely understood. The ABCC transporters core consists of two nucleotide binding domains (NBD1,2) and transmembrane domains (TMD1,2). Using molecular dynamic simulations, biochemical and hydrogen deuterium exchange approaches, we show that the mutational uncoupling or stabilization of NBD1-TMD1/2 interfaces can compromise or facilitate the CFTR(ABCC7)-, MRP1(ABCC1)-, and ABCC6-transporters posttranslational coupled domain-folding in the endoplasmic reticulum. Allosteric or orthosteric binding of VX-809 and/or VX-445 folding correctors to TMD1/2 can rescue kinetically trapped CFTR posttranslational folding intermediates of cystic fibrosis (CF) mutants of NBD1 or TMD1 by global rewiring inter-domain allosteric-networks. We propose that dynamic allosteric domain-domain communications not only regulate ABCC-transporters function but are indispensable to tune the folding landscape of their posttranslational intermediates. These allosteric networks can be compromised by CF-mutations, and reinstated by correctors, offering a framework for mechanistic understanding of ABCC-transporters (mis)folding.

show abstract

Computational analysis of long-range allosteric communications in CFTR

Cited by 2 publications

References 88 publications

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain-domain coupling

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain-domain coupling

Folding correctors can restore CFTR posttranslational folding landscape by allosteric domain–domain coupling

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