In Vivo Base Editing of Scn5a Rescues Type 3 Long QT Syndrome in Mice

Author:

Qi Man1234ORCID,Ma Shuhong12ORCID,Liu Jingtong5,Liu Xujie126,Wei Jingjing2,Lu Wen-Jing7,Zhang Siyao7,Chang Yun12,Zhang Yongshuai12,Zhong Kejia2,Yan Yuting12,Zhu Min12ORCID,Song Yabing8ORCID,Chen Yundai4ORCID,Hao Guoliang9ORCID,Wang Jianbin8,Wang Li12ORCID,Lee Andrew S.10,Chen Xiangbo11ORCID,Wang Yongming5ORCID,Lan Feng267ORCID

Affiliation:

1. Shenzhen Key Laboratory of Cardiovascular Disease, Chinese Academy of Medical Sciences, Fuwai Hospital, Shenzhen, China (M.Q., S.M., X.L., Y. Chang, Y.Z., Y.Y., M.Z., L.W.).

2. Key Laboratory of Pluripotent Stem Cells in Cardiac Repair and Regeneration, State Key Laboratory of Cardiovascular Disease, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, Fuwai Hospital, Beijing, China (M.Q., S.M., X.L., J. Wei, Y. Chang, Y.Z., K.Z., Y.Y., M.Z., L.W., F.L.).

3. Chinese PLA General Hospital, College of Pulmonary & Critical Care Medicine, Beijing Key Laboratory of OTIR, Beijing, China (M.Q.).

4. Department of Cardiology, Chinese PLA General Hospital, Beijing, China (M.Q., Y. Chen).

5. State Key Laboratory of Genetic Engineering, School of Life Sciences, Zhongshan Hospital, Fudan University, Shanghai, China (J.L., Y.W.).

6. National Health Commission Key Laboratory of Cardiovascular Regenerative Medicine, Fuwai Central–China Hospital, Central-China Branch of National Center for Cardiovascular Diseases, Zhengzhou, China (X.L., F.L.).

7. Beijing Laboratory for Cardiovascular Precision Medicine, The Key Laboratory of Biomedical Engineering for Cardiovascular Disease Research, Ministry of Education, Beijing Anzhen Hospital, Capital Medical University, Beijing, China (W.-J.L., S.Z., F.L.).

8. School of Life Sciences, Tsinghua University, Beijing, China (Y.S., J. Wang).

9. Henan Academy of Innovations in Medical Science, Zhengzhou, China (G.H.).

10. Institute for Cancer Research, Shenzhen Bay Laboratory, Shenzhen, China (A.S.L.).

11. Hangzhou Rongze Biotechnology Group Co, Ltd, Hangzhou, China (X.C.).

Abstract

BACKGROUND: Pathogenic variants in SCN5A can result in long QT syndrome type 3, a life-threatening genetic disease. Adenine base editors can convert targeted A T base pairs to G C base pairs, offering a promising tool to correct pathogenic variants. METHODS: We generated a long QT syndrome type 3 mouse model by introducing the T1307M pathogenic variant into the Scn5a gene. The adenine base editor was split into 2 smaller parts and delivered into the heart by adeno-associated virus serotype 9 (AAV9-ABEmax) to correct the T1307M pathogenic variant. RESULTS: Both homozygous and heterozygous T1307M mice showed significant QT prolongation. Carbachol administration induced Torsades de Pointes or ventricular tachycardia for homozygous T1307M mice (20%) but not for heterozygous or wild-type mice. A single intraperitoneal injection of AAV9-ABEmax at postnatal day 14 resulted in up to 99.20% Scn5a transcripts corrected in T1307M mice. Scn5a mRNA correction rate >60% eliminated QT prolongation; Scn5a mRNA correction rate <60% alleviated QT prolongation. Partial Scn5a correction resulted in cardiomyocytes heterogeneity, which did not induce severe arrhythmias. We did not detect off-target DNA or RNA editing events in ABEmax-treated mouse hearts. CONCLUSIONS: These findings show that in vivo AAV9-ABEmax editing can correct the variant Scn5a allele, effectively ameliorating arrhythmia phenotypes. Our results offer a proof of concept for the treatment of hereditary arrhythmias.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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