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CFTR interactome mapping using the mammalian membrane two-hybrid high-throughput screening system.

Sang Hyun LimJamie SniderLiron Birimberg-SchwartzWan IpJoana C SerralhaHugo M BotelhoMiquéias Lopes-PachecoMadalena C PintoMohamed Taha MoutaoufikMara ZilocchiOnofrio LaselvaMohsen EsmaeiliMax KotlyarAnna LyakishevaPriscilla TangLucía López VázquezIndira AkulaFarzaneh AboualizadehVictoria WongIngrid GrozavuTeuta Opačak-BernardiZhong YaoMeg MendozaMohan BabuIgor JurisicaTanja GonskaChristine E BearMargarida D AmaralIgor Stagljar
Published in: Molecular systems biology (2022)
Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) is a chloride and bicarbonate channel in secretory epithelia with a critical role in maintaining fluid homeostasis. Mutations in CFTR are associated with Cystic Fibrosis (CF), the most common lethal autosomal recessive disorder in Caucasians. While remarkable treatment advances have been made recently in the form of modulator drugs directly rescuing CFTR dysfunction, there is still considerable scope for improvement of therapeutic effectiveness. Here, we report the application of a high-throughput screening variant of the Mammalian Membrane Two-Hybrid (MaMTH-HTS) to map the protein-protein interactions of wild-type (wt) and mutant CFTR (F508del), in an effort to better understand CF cellular effects and identify new drug targets for patient-specific treatments. Combined with functional validation in multiple disease models, we have uncovered candidate proteins with potential roles in CFTR function/CF pathophysiology, including Fibrinogen Like 2 (FGL2), which we demonstrate in patient-derived intestinal organoids has a significant effect on CFTR functional expression.
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