The future of cystic fibrosis treatment: from disease mechanisms to novel therapeutic approaches
- PMID: 37699417
- DOI: 10.1016/S0140-6736(23)01608-2
The future of cystic fibrosis treatment: from disease mechanisms to novel therapeutic approaches
Abstract
With the 2019 breakthrough in the development of highly effective modulator therapy providing unprecedented clinical benefits for over 90% of patients with cystic fibrosis who are genetically eligible for treatment, this rare disease has become a front runner of transformative molecular therapy. This success is based on fundamental research, which led to the identification of the disease-causing CFTR gene and our subsequent understanding of the disease mechanisms underlying the pathogenesis of cystic fibrosis, working together with a continuously evolving clinical research and drug development pipeline. In this Series paper, we focus on advances since 2018, and remaining knowledge gaps in our understanding of the molecular mechanisms of CFTR dysfunction in the airway epithelium and their links to mucus dysfunction, impaired host defences, airway infection, and chronic inflammation of the lungs of people with cystic fibrosis. We review progress in (and the remaining obstacles to) pharmacological approaches to rescue CFTR function, and novel strategies for improved symptomatic therapies for cystic fibrosis, including how these might be applicable to common lung diseases, such as bronchiectasis and chronic obstructive pulmonary disease. Finally, we discuss the promise of genetic therapies and gene editing approaches to restore CFTR function in the lungs of all patients with cystic fibrosis independent of their CFTR genotype, and the unprecedented opportunities to transform cystic fibrosis from a fatal disease to a treatable and potentially curable one.
Copyright © 2023 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of interests No funding was provided specifically for this Series paper. SYG reports grants from the Christiane Herzog Foundation, the German Cystic Fibrosis Association (Mukoviszidose), Vertex Pharmaceuticals, and a fellowship from the Berlin Institute of Health Charité Clinician Scientist Program; lecture honoraria from Chiesi and Vertex Pharmaceuticals; and advisory board participation for Chiesi and Vertex Pharmaceuticals outside the submitted work. MAM reports grants from the German Research Foundation (DFG; grant numbers SFB-TR 84 and SFB 1449; project numbers 431232613 and 450557679), the German Federal Ministry of Education and Research (BMBF; grant number 82DZL009B1), the German Innovation Fund (grant number 01NVF19008), and Vertex Pharmaceuticals; consulting fees from AbbVie, Antabio, Arrowhead Pharmaceuticals, Boehringer Ingelheim, Enterprise Therapeutics, Kither Biotech, Prieris, Recode, Santhera, Splisense, and Vertex Pharmaceuticals; lecture honoraria from Vertex Pharmaceuticals; travel support from Boehringer Ingelheim and Vertex Pharmaceuticals; a patent on the Scnn1b-transgenic mouse as an animal model for chronic obstructive pulmonary disease and cystic fibrosis, a patent on the medical uses of thiol-functionalised polyglycerol derivatives, and a patent on receptor for advanced glycation endproducts (RAGE) proteins for the treatment of fibrosis and DNA damage-mediated diseases; and advisory board participation with AbbVie, Antabio, Arrowhead Pharmaceuticals, Boehringer Ingelheim, Enterprise Therapeutics, Kither Biotech, Pari, and Vertex Pharmaceuticals outside the submitted work. MAM is a Fellow of the European Respiratory Society (FERS).
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