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Plakophilin 2 gene therapy prevents and rescues arrhythmogenic right ventricular cardiomyopathy in a mouse model harboring patient genetics

William H. Bradford, Jing Zhang, Erika J. Gutiérrez-Lara, Yan Liang, Aryanne Do, Tsui‐Min Wang, Lena Nguyen, Nirosh Mataraarachchi, Jie Wang, Yusu Gu, Andrew D. McCulloch, Kirk L. Peterson, Farah Sheikh

2023Nature Cardiovascular Research72 citationsDOIOpen Access PDF

Abstract

Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a fatal genetic heart disease characterized by cardiac arrhythmias, in which fibrofatty deposition leads to heart failure, with no effective treatments. Plakophilin 2 (PKP2) is the most frequently mutated gene in ARVC, and although altered RNA splicing has been implicated, there are no models to study its effect and therapeutics. Here, we generate a mouse model harboring a PKP2 mutation (IVS10-1G>C) affecting RNA splicing, recapitulating ARVC features and sudden death starting at 4 weeks. Administering AAV-PKP2 gene therapy (adeno-associated viral therapy to drive cardiac expression of PKP2) to neonatal mice restored PKP2 protein levels, completely preventing cardiac desmosomal and pathological deficits associated with ARVC, ensuring 100% survival of mice up to 6 months. Late-stage AAV-PKP2 administration rescued desmosomal protein deficits and reduced pathological deficits including improved cardiac function in adult mice, resulting in 100% survival up to 4 months. We suggest that AAV-PKP2 gene therapy holds promise for circumventing ARVC associated with PKP2 mutations, including splice site mutations.

Topics & Concepts

CardiologyCardiomyopathyInternal medicineMedicineGenetic enhancementGeneGeneticsHeart failureBiologyCardiovascular Effects of ExerciseSports injuries and preventionCardiac electrophysiology and arrhythmias