对人雪旺细胞具有改善嗜性的新型腺相关病毒变体。

Novel AAV variants with improved tropism for human Schwann cells.

作者信息

Drouyer Matthieu, Chu Tak-Ho, Labit Elodie, Haase Florencia, Navarro Renina Gale, Nazareth Deborah, Rosin Nicole, Merjane Jessica, Scott Suzanne, Cabanes-Creus Marti, Westhaus Adrian, Zhu Erhua, Midha Rajiv, Alexander Ian E, Biernaskie Jeff, Ginn Samantha L, Lisowski Leszek

机构信息

Translational Vectorology Research Unit, Children's Medical Research Institute, Faculty of Medicine and Health, The University of Sydney, Westmead, NSW, Australia.

Department of Clinical Neurosciences and Hotchkiss Brain Institute, Cumming School of Medicine, University of Calgary, Calgary, AB, Canada.

出版信息

Mol Ther Methods Clin Dev. 2024 Mar 11;32(2):101234. doi: 10.1016/j.omtm.2024.101234. eCollection 2024 Jun 13.

DOI:10.1016/j.omtm.2024.101234

PMID:38558569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10978538/

Abstract

Gene therapies and associated technologies are transforming biomedical research and enabling novel therapeutic options for patients living with debilitating and incurable genetic disorders. The vector system based on recombinant adeno-associated viral vectors (AAVs) has shown great promise in recent clinical trials for genetic diseases of multiple organs, such as the liver and the nervous system. Despite recent successes toward the development of novel bioengineered AAV variants for improved transduction of primary human tissues and cells, vectors that can efficiently transduce human Schwann cells (hSCs) have yet to be identified. Here, we report the application of the functional transduction-RNA selection method in primary hSCs for the development of AAV variants for specific and efficient transgene delivery to hSCs. The two identified capsid variants, Pep2hSC1 and Pep2hSC2, show conserved potency for delivery across various , , and models of hSCs. These novel AAV capsids will serve as valuable research tools, forming the basis for therapeutic solutions for both SC-related disorders or peripheral nervous system injury.

摘要

基因疗法及相关技术正在改变生物医学研究，并为患有使人衰弱且无法治愈的遗传性疾病的患者带来新的治疗选择。基于重组腺相关病毒载体（AAV）的载体系统在最近针对多器官遗传性疾病（如肝脏和神经系统疾病）的临床试验中显示出了巨大潜力。尽管最近在开发用于改善原代人组织和细胞转导的新型生物工程AAV变体方面取得了成功，但能够有效转导人雪旺细胞（hSC）的载体尚未被确定。在此，我们报告了功能转导-RNA选择方法在原代hSC中的应用，以开发用于将特定且高效的转基因递送至hSC的AAV变体。鉴定出的两种衣壳变体Pep2hSC1和Pep2hSC2在跨多种hSC模型的递送中显示出保守的效力。这些新型AAV衣壳将作为有价值的研究工具，为治疗与雪旺细胞相关的疾病或周围神经系统损伤的解决方案奠定基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/efe7/10978538/e52197b56a17/fx1.jpg

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对人雪旺细胞具有改善嗜性的新型腺相关病毒变体。

Novel AAV variants with improved tropism for human Schwann cells.

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