一种基于无启动子AAV6.2FF的肺基因编辑平台，用于纠正表面活性物质蛋白B缺乏症。

A promoterless AAV6.2FF-based lung gene editing platform for the correction of surfactant protein B deficiency.

作者信息

Thomas Sylvia P, Domm Jakob M, van Vloten Jacob P, Xu Liqun, Vadivel Arul, Yates Jacob G E, Pei Yanlong, Ingrao Joelle, van Lieshout Laura P, Jackson Sergio R, Minott Jessica A, Achuthan Adithya, Mehrani Yeganeh, McAusland Thomas M, Zhang Wei, Karimi Khalil, Vaughan Andrew E, de Jong Jondavid, Kang Martin H, Thebaud Bernard, Wootton Sarah K

机构信息

Department of Pathobiology, University of Guelph, Guelph, ON N1G 2W1, Canada.

Regenerative Medicine Program, The Ottawa Hospital Research Institute (OHRI), Ottawa, ON, Canada; Department of Cellular and Molecular Medicine, University of Ottawa, Ottawa, ON, Canada; Neonatology, Department of Pediatrics, Children's Hospital of Eastern Ontario (CHEO), and CHEO Research Institute, Ottawa, ON K1Y 4E9, Canada.

出版信息

Mol Ther. 2023 Dec 6;31(12):3457-3477. doi: 10.1016/j.ymthe.2023.10.002. Epub 2023 Oct 7.

DOI:10.1016/j.ymthe.2023.10.002

PMID:37805711

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10727957/

Abstract

Surfactant protein B (SP-B) deficiency is a rare genetic disease that causes fatal respiratory failure within the first year of life. Currently, the only corrective treatment is lung transplantation. Here, we co-transduced the murine lung with adeno-associated virus 6.2FF (AAV6.2FF) vectors encoding a SaCas9-guide RNA nuclease or donor template to mediate insertion of promoterless reporter genes or the (murine) Sftpb gene in frame with the endogenous surfactant protein C (SP-C) gene, without disrupting SP-C expression. Intranasal administration of 3 × 10 vg donor template and 1 × 10 vg nuclease consistently edited approximately 6% of lung epithelial cells. Frequency of gene insertion increased in a dose-dependent manner, reaching 20%-25% editing efficiency with the highest donor template and nuclease doses tested. We next evaluated whether this promoterless gene editing platform could extend survival in the conditional SP-B knockout mouse model. Administration of 1 × 10 vg SP-B-donor template and 5 × 10 vg nuclease significantly extended median survival (p = 0.0034) from 5 days in the untreated off doxycycline group to 16 days in the donor AAV and nuclease group, with one gene-edited mouse living 243 days off doxycycline. This AAV6.2FF-based gene editing platform has the potential to correct SP-B deficiency, as well as other disorders of alveolar type II cells.

摘要

表面活性蛋白B（SP-B）缺乏症是一种罕见的遗传性疾病，可在生命的第一年内导致致命的呼吸衰竭。目前，唯一的矫正治疗方法是肺移植。在此，我们用编码SaCas9引导RNA核酸酶或供体模板的腺相关病毒6.2FF（AAV6.2FF）载体共转导小鼠肺，以介导无启动子报告基因或（小鼠）Sftpb基因与内源性表面活性蛋白C（SP-C）基因框内插入，而不破坏SP-C表达。经鼻给予3×10 vg供体模板和1×10 vg核酸酶可一致地编辑约6%的肺上皮细胞。基因插入频率呈剂量依赖性增加，在测试的最高供体模板和核酸酶剂量下，编辑效率达到20%-25%。接下来，我们评估了这个无启动子基因编辑平台是否能延长条件性SP-B基因敲除小鼠模型的生存期。给予1×10 vg SP-B供体模板和5×10 vg核酸酶可显著延长中位生存期（p = 0.0034），从未经处理的停用强力霉素组的5天延长至供体AAV和核酸酶组的16天，有一只基因编辑小鼠在停用强力霉素后存活了243天。这个基于AAV6.2FF的基因编辑平台有潜力纠正SP-B缺乏症以及其他II型肺泡细胞疾病。

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一种基于无启动子AAV6.2FF的肺基因编辑平台，用于纠正表面活性物质蛋白B缺乏症。

A promoterless AAV6.2FF-based lung gene editing platform for the correction of surfactant protein B deficiency.

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