Spatial and longitudinal tracking of enhancer-AAV vectors that target transgene expression to injured mouse myocardium.

IF 6.4 1区生物学 Q1 BIOLOGY

eLife Pub Date : 2025-09-12 DOI:10.7554/eLife.107148

David W Wolfson, Joshua A Hull, Yongwu Li, Trevor J Gonzalez, Mourya D Jayaram, Garth W Devlin, Valentina Cigliola, Kelsey A Oonk, Alan Rosales, Nenad Bursac, Aravind Asokan, Kenneth D Poss

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引用次数: 0

Abstract

Tissue regeneration enhancer elements (TREEs) direct expression of target genes in injured and regenerating tissues. Additionally, TREEs of zebrafish origin were shown to direct expression of transgenes in border zone regions after cardiac injury when packaged into recombinant adeno-associated viral (AAV) vectors and introduced into mice. Future implementation of TREEs into AAV-based vectors as research tools and potential gene therapy modalities requires a deeper understanding of expression dynamics and potential off-target effects. Here, we applied in vivo bioluminescent imaging to mice systemically injected with AAV vectors containing different combinations of capsids, enhancers, and timing of delivery. Longitudinal tracking of expression directed by different TREEs revealed distinct amplitudes and durations of reporter gene expression in the injured heart. The liver-de-targeted AAV capsid, AAV.cc84, could deliver TREEs either pre- or post-cardiac injury to negate off-target expression in the liver while maintaining transduction in the heart. By screening AAV9-based capsid libraries dosed systemically in mice post-cardiac injury, we discovered a new capsid variant, AAV.IR41, with enhanced transduction in cardiac injuries and with elevated transduction of TREE-driven transgenes versus conventional AAV9 vectors. In vivo bioluminescence imaging offers insights into how enhancers and engineered capsids can be implemented to modulate spatiotemporal transgene expression for targeted therapies.

Abstract Image

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靶向转基因表达损伤小鼠心肌的增强aav载体的空间和纵向追踪。

组织再生增强因子（Tissue regeneration enhancer elements, TREEs）：在损伤组织和再生组织中直接表达靶基因。此外，将源自斑马鱼的树包装成重组腺相关病毒（AAV）载体并引入小鼠体内后，可以在心脏损伤后的边界区直接表达转基因。未来将树植入基于aav的载体作为研究工具和潜在的基因治疗方式，需要对表达动力学和潜在的脱靶效应有更深入的了解。在这里，我们将体内生物发光成像应用于全身注射含有不同衣壳、增强子组合和递送时间的AAV载体的小鼠。由不同树引导的表达纵向跟踪显示，报告基因在损伤心脏中的表达幅度和持续时间不同。肝脏去靶向AAV衣壳，AAV。cc84可以在心脏损伤前或心脏损伤后传递TREEs，从而在肝脏中抑制脱靶表达，同时维持心脏中的转导。通过筛选心脏损伤后小鼠系统给药的基于aav9的衣壳文库，我们发现了一种新的衣壳变体AAV。IR41在心脏损伤中的转导增强，与传统的AAV9载体相比，tree驱动的转基因转导升高。体内生物发光成像提供了如何实现增强子和工程衣壳来调节靶向治疗的时空转基因表达的见解。

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

eLife BIOLOGY-

CiteScore

12.90

自引率

3.90%

发文量

3122

审稿时长

17 weeks

期刊介绍： eLife is a distinguished, not-for-profit, peer-reviewed open access scientific journal that specializes in the fields of biomedical and life sciences. eLife is known for its selective publication process, which includes a variety of article types such as: Research Articles: Detailed reports of original research findings. Short Reports: Concise presentations of significant findings that do not warrant a full-length research article. Tools and Resources: Descriptions of new tools, technologies, or resources that facilitate scientific research. Research Advances: Brief reports on significant scientific advancements that have immediate implications for the field. Scientific Correspondence: Short communications that comment on or provide additional information related to published articles. Review Articles: Comprehensive overviews of a specific topic or field within the life sciences.