Cardiac-Targeted AAV5-S100A1 Gene Therapy Protects Against Adverse Remodeling and Contractile Dysfunction in Postischemic Hearts.

IF 8.4 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation: Heart Failure Pub Date : 2025-07-01 Epub Date: 2025-06-19 DOI:10.1161/CIRCHEARTFAILURE.124.012479

Dorothea Kehr, Janek Salatzki, Birgit Seger, Karl Varadi, Jennifer Birkenstock, Philipp Schlegel, Erhe Gao, Walter J Koch, Hugo A Katus, Norbert Frey, Johannes Riffel, Florian André, Karsten Peppel, Andreas Jungmann, Martin Busch, Helga Pfannkuche, Julia Ritterhoff, Patrick Most

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引用次数: 0

Abstract

Background: Guided by long-term safety data for AAV5 (adeno-associated virus 5) in humans, our translational study investigated whether AAV5 effectively delivers genes to healthy and achieves therapeutic efficacy in dysfunctional human-sized hearts, using a clinically applicable mode of administration and vector dosages.

Methods: AAV-mediated cardiac gene transfer in pigs was performed by percutaneous catheter-based retrograde intravenous vector delivery, and vector genome and transgene expression levels determined by reverse transcription-polymerase chain reaction and immunoblotting. Postmyocardial infarction (MI) cardiac dysfunction porcine and murine models were generated by coronary catheter-based occlusion and ligation, respectively. The study end points left ventricular ejection fraction and left ventricular MI size, were measured by cardiac magnetic resonance imaging and echocardiography. Bulk myocardial RNA-sequencing and weighted gene correlation network analysis were used to link study end points to molecular pathway mechanisms. Safety was assessed by clinical chemistry, blood count and ECG.

Results: In a first biodistribution study, AAV5 (1×10¹³ vector genomes; vgs) with the reporter gene luciferase (luc) achieved broad and homogenous transduction of healthy pig hearts 30 days after catheter-based retrograde intravenous vector delivery without toxicity. Both its myocardial and extra-cardiac distribution patterns were advantageous compared with AAV9-luc and AAV6-luc. Using AAV5 with the cardioprotective human gene S100A1 (hS100A1; 1×10¹³ vgcs) by catheter-based retrograde intravenous vector delivery in a subsequent therapy study in post-MI pigs prevented left ventricular MI extension and improved left ventricular ejection fraction after 3 months without clinical toxicity. Weighted gene correlation network analysis linked novel antiinflammatory actions and cardioprotective signaling mechanisms by hS100A1 to study end point improvements, which was confirmed in a post-MI mouse model.

Conclusions: Providing the clinically relevant proof of concept for AAV5 to effectively transduce healthy and dysfunctional human-sized hearts, its clinical long-term safety, scalable producibility, and low preexisting immunity in humans may predestine AAV5 as an effective and safe gene carrier for a prevalent disease such as chronic heart failure, using therapeutic genetic effectors such as hS100A1 or others.

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心脏靶向AAV5-S100A1基因治疗可预防缺血后心脏的不良重塑和收缩功能障碍

背景：在人类AAV5（腺相关病毒5）长期安全性数据的指导下，我们的转化研究通过临床适用的给药模式和载体剂量，研究了AAV5是否能有效地将基因传递到健康的人体内，并在功能失调的人类心脏中取得治疗效果。方法：通过经皮导管逆行静脉传递aav介导的猪心脏基因转移，采用RT-PCR和免疫印迹法检测载体基因组和转基因表达水平。猪心肌梗死后心功能障碍模型和小鼠心肌梗死后心功能障碍模型分别采用冠状动脉冠脉闭塞和结扎法制备。研究终点左室射血分数和左室心肌梗死大小分别通过心脏磁共振成像和超声心动图测量。大量心肌rna测序和加权基因相关网络分析用于将研究终点与分子途径机制联系起来。通过临床化学、血球计数和心电图评估安全性。结果：在首次生物分布研究中，AAV5 (1×1013载体基因组；带有报告基因荧光素酶（luc）的Vgs在以导管为基础的逆行静脉传递载体30天后，在健康猪心脏中实现了广泛而均匀的转导，没有毒性。与AAV9-luc和AAV6-luc相比，其心肌和心外分布模式均具有优势。使用带有心脏保护基因S100A1的AAV5 (hS100A1；1×1013 vgcs)在心肌梗死后猪的后续治疗研究中，通过导管为基础的逆行静脉传递载体，可防止左心室心肌梗死扩展，并在3个月后改善左心室射血分数，无临床毒性。加权基因相关网络分析将S100A1的新型抗炎作用和心脏保护信号机制联系起来，研究终点改善，这在心肌梗死后小鼠模型中得到证实。结论：为AAV5有效转导健康和功能失调的人类大小的心脏提供了临床相关的概念证明，其临床长期安全性、可扩展的可生产性和人类先前存在的低免疫力，可能决定了AAV5使用治疗性遗传效应物（如hS100A1或其他）作为慢性心力衰竭等流行疾病的有效和安全的基因载体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation: Heart Failure 医学-心血管系统

CiteScore

12.90

自引率

3.10%

发文量

271

审稿时长

6-12 weeks

期刊介绍： Circulation: Heart Failure focuses on content related to heart failure, mechanical circulatory support, and heart transplant science and medicine. It considers studies conducted in humans or analyses of human data, as well as preclinical studies with direct clinical correlation or relevance. While primarily a clinical journal, it may publish novel basic and preclinical studies that significantly advance the field of heart failure.