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  • AAV9:PKP2 improves heart function and survival in a Pkp2-deficient mouse model of arrhythmogenic right ventricular cardiomyopathy.

AAV9:PKP2 improves heart function and survival in a Pkp2-deficient mouse model of arrhythmogenic right ventricular cardiomyopathy.

Communications medicine (2024-03-19)
Iris Wu, Aliya Zeng, Amara Greer-Short, J Alex Aycinena, Anley E Tefera, Reva Shenwai, Farshad Farshidfar, Melissa Van Pell, Emma Xu, Chris Reid, Neshel Rodriguez, Beatriz Lim, Tae Won Chung, Joseph Woods, Aquilla Scott, Samantha Jones, Cristina Dee-Hoskins, Carolina G Gutierrez, Jessie Madariaga, Kevin Robinson, Yolanda Hatter, Renee Butler, Stephanie Steltzer, Jaclyn Ho, James R Priest, Xiaomei Song, Frank Jing, Kristina Green, Kathryn N Ivey, Timothy Hoey, Jin Yang, Zhihong Jane Yang
RESUMEN

Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a familial cardiac disease associated with ventricular arrhythmias and an increased risk of sudden cardiac death. Currently, there are no approved treatments that address the underlying genetic cause of this disease, representing a significant unmet need. Mutations in Plakophilin-2 (PKP2), encoding a desmosomal protein, account for approximately 40% of ARVC cases and result in reduced gene expression. Our goal is to examine the feasibility and the efficacy of adeno-associated virus 9 (AAV9)-mediated restoration of PKP2 expression in a cardiac specific knock-out mouse model of Pkp2. We show that a single dose of AAV9:PKP2 gene delivery prevents disease development before the onset of cardiomyopathy and attenuates disease progression after overt cardiomyopathy. Restoration of PKP2 expression leads to a significant extension of lifespan by restoring cellular structures of desmosomes and gap junctions, preventing or halting decline in left ventricular ejection fraction, preventing or reversing dilation of the right ventricle, ameliorating ventricular arrhythmia event frequency and severity, and preventing adverse fibrotic remodeling. RNA sequencing analyses show that restoration of PKP2 expression leads to highly coordinated and durable correction of PKP2-associated transcriptional networks beyond desmosomes, revealing a broad spectrum of biological perturbances behind ARVC disease etiology. We identify fundamental mechanisms of PKP2-associated ARVC beyond disruption of desmosome function. The observed PKP2 dose-function relationship indicates that cardiac-selective AAV9:PKP2 gene therapy may be a promising therapeutic approach to treat ARVC patients with PKP2 mutations.

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Sigma-Aldrich
Monoclonal Anti-Plakoglobin (Catenin γ) antibody produced in mouse, clone 15F11, ascites fluid, buffered aqueous solution