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The Folding Pathway of ABC Transporter CFTR: Effective and Robust

Peter van der Sluijs, Hanneke Hoelen, André Schmidt, Ineke Braakman

2024Journal of Molecular Biology17 citationsDOIOpen Access PDF

Abstract

De novo protein folding into a native three-dimensional structure is indispensable for biological function, is instructed by its amino acid sequence, and occurs along a vectorial trajectory. The human proteome contains thousands of membrane-spanning proteins, whose biosynthesis begins on endoplasmic reticulum-associated ribosomes. Nearly half of all membrane proteins traverse the membrane more than once, including therapeutically important protein families such as solute carriers, G-protein-coupled receptors, and ABC transporters. These mediate a variety of functions like signal transduction and solute transport and are often of vital importance for cell function and tissue homeostasis. Missense mutations in multispan membrane proteins can lead to misfolding and cause disease; an example is the ABC transporter Cystic Fibrosis Transmembrane Conductance Regulator (CFTR). Even though our understanding of multispan membrane-protein folding still is rather rudimental, the cumulative knowledge of 20 years of basic research on CFTR folding has led to development of drugs that modulate the misfolded protein. This has provided the prospect of a life without CF to the vast majority of patients. In this review we describe our understanding of the folding pathway of CFTR in cells, which is modular and tolerates many defects, making it effective and robust. We address how modulator drugs affect folding and function of CFTR, and distinguish protein stability from its folding process. Since the domain architecture of (mammalian) ABC transporters are highly conserved, we anticipate that the insights we discuss here for folding of CFTR may lay the groundwork for understanding the general rules of ABC-transporter folding.

Topics & Concepts

Protein foldingATP-binding cassette transporterEndoplasmic reticulumBiologyMembrane transport proteinProteostasisMembrane proteinCell biologyTransport proteinProtein targetingChaperone (clinical)TransloconCystic fibrosis transmembrane conductance regulatorTransmembrane proteinTransporterComputational biologyBiochemistryGeneReceptorMembraneMedicinePathologyCystic Fibrosis Research AdvancesAdvanced biosensing and bioanalysis techniquesDrug Transport and Resistance Mechanisms
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