简介:
- 作者: Chong Chang, Xiulin Zhang, Xiaoqi Fan, Xiao Chen, Jiangping Song, Xing Chang
- 杂志: Cell Reports Medicine
- Doi: https://www.doi.org/10.1016/j.xcrm.2026.102639
- 出版日期: 2026/2/27
摘要
Restrictive cardiomyopathy (RCM) is a severe cardiac disorder characterized by impaired ventricular filling and diastolic dysfunction, with mutations in sarcomeric proteins representing major causative factors. Mutations of TNNI3 gene (e.g., p.R192H) constitute major genetic causes of RCM, particularly affecting pediatric patients and being associated with poor prognosis. Here, we demonstrate that adenine base editor (ABE) can effectively correct RCM-causing mutation and alleviate RCM in a murine model. We develop a murine model harboring the Tnni3R193H mutation that recapitulates the hallmark features of human RCM. Importantly, targeted delivery of ABE via adeno-associated virus (AAV) can achieve efficient and precise correction of the Tnni3R193H mutation in adult RCM mice, leading to significant improvement of cardiac functions. Our findings establish base editing as a therapeutic strategy for RCM and highlight its broader potential for treating genetic cardiomyopathies in clinical settings.
关于派真
作为一家专注于AAV 技术十余年,深耕基因治疗领域的CRO&CDMO,派真生物可提供从载体设计、构建到 AAV、慢病毒和 mRNA 服务的一站式解决方案。凭借深厚的技术实力、卓越的运营管理和高标准的服务交付,我们为全球客户提供一站式CMC解决方案,包括从早期概念验证、成药性评估到IIT、IND及BLA的各个阶段。
凭借我们独立知识产权的π-alphaTM 293 细胞AAV高产技术平台,我们能将AAV产量提高多至10倍,每批次产量可达1×10¹⁷vg,以满足多样化的商业化和临床项目需求。此外,我们定制化的mRNA和脂质纳米颗粒(LNP)产品及服务覆盖药物和疫苗开发的各个阶段,从研发到符合GMP的生产,提供端到端的一站式解决方案。
