AAV-Mediated Delivery of Plakophilin-2a Arrests Progression of Arrhythmogenic Right Ventricular Cardiomyopathy in Murine Hearts: Preclinical Evidence Supporting Gene Therapy in Humans.

IF 6 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Circulation: Genomic and Precision Medicine Pub Date : 2024-02-01 Epub Date: 2024-01-30 DOI:10.1161/CIRCGEN.123.004305

Chantal J M van Opbergen, Bitha Narayanan, Chester B Sacramento, Katie M Stiles, Vartika Mishra, Esther Frenk, David Ricks, Grace Chen, Mingliang Zhang, Paul Yarabe, Jonathan Schwartz, Mario Delmar, Chris D Herzog, Marina Cerrone

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Abstract

Background: Pathogenic variants in PKP2 (plakophilin-2) cause arrhythmogenic right ventricular cardiomyopathy, a disease characterized by life-threatening arrhythmias and progressive cardiomyopathy leading to heart failure. No effective medical therapy is available to prevent or arrest the disease. We tested the hypothesis that adeno-associated virus vector-mediated delivery of the human PKP2 gene to an adult mammalian heart deficient in PKP2 can arrest disease progression and significantly prolong survival.

Methods: Experiments were performed using a PKP2-cKO (cardiac-specific, tamoxifen-activated PKP2 knockout murine model). The potential therapeutic, adeno-associated virus vector of serotype rh.74 (AAVrh.74)-PKP2a (PKP2 variant A; RP-A601) is a recombinant AAVrh.74 gene therapy viral vector encoding the human PKP2 variant A. AAVrh.74-PKP2a was delivered to adult mice by a single tail vein injection either before or after tamoxifen-activated PKP2-cKO. PKP2 expression was confirmed by molecular and histopathologic analyses. Cardiac function and disease progression were monitored by survival analyses, echocardiography, and electrocardiography.

Results: Consistent with prior findings, loss of PKP2 expression caused 100% mortality within 50 days after tamoxifen injection. In contrast, AAVrh.74-PKP2a-mediated PKP2a expression resulted in 100% survival for >5 months (at study termination). Echocardiographic analysis revealed that AAVrh.74-PKP2a prevented right ventricle dilation, arrested left ventricle functional decline, and mitigated arrhythmia burden. Molecular and histological analyses showed AAVrh.74-PKP2a-mediated transgene mRNA and protein expression and appropriate PKP2 localization at the cardiomyocyte intercalated disc. Importantly, the therapeutic benefit was shown in mice receiving AAVrh.74-PKP2a after disease onset.

Conclusions: These preclinical data demonstrate the potential for AAVrh.74-PKP2a (RP-A601) as a therapeutic for PKP2-related arrhythmogenic right ventricular cardiomyopathy in both early and more advanced stages of the disease.

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AAV介导的Plakophilin-2a递送可抑制致心律失常性右室心肌病在小鼠心脏中的进展：支持人类基因疗法的临床前证据

背景：PKP2（plakophilin-2）的致病变异会导致致心律失常性右室心肌病，这种疾病的特征是危及生命的心律失常和导致心力衰竭的进行性心肌病。目前还没有有效的药物疗法来预防和阻止这种疾病。我们测试了一个假设，即通过腺相关病毒载体介导将人类 PKP2 基因传递给缺乏 PKP2 的成年哺乳动物心脏，可以阻止疾病进展并显著延长存活时间：实验使用 PKP2-cKO（心脏特异性、他莫昔芬激活的 plakophilin-2 基因缺失）。潜在的治疗性血清型rh.74腺相关病毒载体（AAVrh.74）-PKP2a（PKP2变体A；RP-A601）是一种重组的AAVrh.74基因治疗病毒载体，编码人类PKP2a。在他莫昔芬激活PKP2-cKO之前或之后，通过单次尾静脉注射将AAVrh.74-PKP2a输送给成年小鼠。分子和组织病理学分析证实了PKP2的表达。通过生存分析、超声心动图和心电图监测心脏功能和疾病进展：结果：与之前的研究结果一致，在注射他莫昔芬后的50天内，PKP2表达缺失会导致100%的死亡率。相比之下，AAVrh.74-PKP2a介导的PKP2a表达可导致100%存活超过5个月（研究终止时）。超声心动图分析表明，AAVrh.74-PKP2a能防止右心室扩张、阻止左心室功能衰退并减轻心律失常负担。分子和组织学分析显示，AAVrh.74-PKP2a介导的转基因mRNA和蛋白表达以及PKP2在心肌细胞闰盘的适当定位。重要的是，发病后接受 AAVrh.74-PKP2a 的小鼠显示出了治疗效果：这些临床前数据证明了 AAVrh.74-PKP2a (RP-A601) 作为 PKP2 相关致心律失常性右室心肌病早期和晚期治疗药物的潜力。

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来源期刊

Circulation: Genomic and Precision Medicine Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

9.20

自引率

5.40%

发文量

144

期刊介绍： Circulation: Genomic and Precision Medicine is a distinguished journal dedicated to advancing the frontiers of cardiovascular genomics and precision medicine. It publishes a diverse array of original research articles that delve into the genetic and molecular underpinnings of cardiovascular diseases. The journal's scope is broad, encompassing studies from human subjects to laboratory models, and from in vitro experiments to computational simulations. Circulation: Genomic and Precision Medicine is committed to publishing studies that have direct relevance to human cardiovascular biology and disease, with the ultimate goal of improving patient care and outcomes. The journal serves as a platform for researchers to share their groundbreaking work, fostering collaboration and innovation in the field of cardiovascular genomics and precision medicine.