Molecular Virology and Gene Therapy, Department of Pharmaceutical and Pharmacological Sciences, KU Leuven, Flanders, Belgium.
Current affiliation: Cellular Protein Chemistry, Faculty of Science, Utrecht University, The Netherlands.
Prenat Diagn. 2017 Dec;37(12):1181-1190. doi: 10.1002/pd.5164. Epub 2017 Nov 21.
Gene therapy provides a mutation-independent approach to treat or even cure CF airway disease. To develop a clinical candidate for CF gene therapy, a thorough examination of preclinical efficacy in relevant cell and animal models is a prerequisite. For a long time, the CF field was struggling with a lack of appropriate animal models for CF airway pathology. Since 2008, many different and complementary animal models have been generated that develop hallmarks of CF airway disease, including the CF pig, ferret, and rat. With this, a new era has arisen that allows investigating the efficacy of gene therapy beyond molecular and electrophysiological end-points. Successful gene therapy most likely requires an appropriate time window. CF lung pathology progresses with age and therefore an early treatment would be beneficial to prevent irreversible damage. In that regard, newborn screening programs and prenatal diagnosis already provide a basis to facilitate future preventive gene-based treatment. If successful, gene therapy for CF airway disease would markedly reduce the treatment burden and improve life quality and life expectancy of CF patients.
基因治疗为治疗甚至治愈 CF 气道疾病提供了一种不依赖于突变的方法。为了开发 CF 基因治疗的临床候选药物,在相关细胞和动物模型中对临床前疗效进行彻底检查是先决条件。长期以来,CF 领域一直在努力寻找合适的 CF 气道病理学动物模型。自 2008 年以来,已经产生了许多不同且互补的动物模型,这些模型具有 CF 气道疾病的特征,包括 CF 猪、雪貂和大鼠。随着这一发展,一个新的时代已经到来,使得可以超越分子和电生理终点来研究基因治疗的疗效。成功的基因治疗很可能需要一个适当的时间窗口。CF 肺部病理学随年龄增长而发展,因此早期治疗将有助于预防不可逆转的损伤。在这方面,新生儿筛查计划和产前诊断已经为未来的预防性基因治疗提供了基础。如果成功,CF 气道疾病的基因治疗将显著减轻治疗负担,提高 CF 患者的生活质量和预期寿命。
