Reciprocal mutations of lung-tropic AAV capsids lead to improved transduction properties.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Frontiers in genome editing Pub Date : 2023-11-22 eCollection Date: 2023-01-01 DOI:10.3389/fgeed.2023.1271813
Ashley L Cooney, Christian M Brommel, Soumba Traore, Gregory A Newby, David R Liu, Paul B McCray, Patrick L Sinn
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引用次数: 0

Abstract

Considerable effort has been devoted to developing adeno-associated virus (AAV)-based vectors for gene therapy in cystic fibrosis (CF). As a result of directed evolution and capsid shuffling technology, AAV capsids are available with widespread tropism for airway epithelial cells. For example, AAV2.5T and AAV6.2 are two evolved capsids with improved airway epithelial cell transduction properties over their parental serotypes. However, limited research has been focused on identifying their specific cellular tropism. Restoring cystic fibrosis transmembrane conductance regulator (CFTR) expression in surface columnar epithelial cells is necessary for the correction of the CF airway phenotype. Basal cells are a progenitor population of the conducting airways responsible for replenishing surface epithelial cells (including secretory cells and ionocytes), making correction of this cell population vital for a long-lived gene therapy strategy. In this study, we investigate the tropism of AAV capsids for three cell types in primary cultures of well-differentiated human airway epithelial (HAE) cells and primary human airway basal cells. We observed that AAV2.5T transduced surface epithelial cells better than AAV6.2, while AAV6.2 transduced airway basal cells better than AAV2.5T. We also investigated a recently developed capsid, AAV6.2FF, which has two surface tyrosines converted to phenylalanines. Next, we incorporated reciprocal mutations to create AAV capsids with further improved surface and basal cell transduction characteristics. Lastly, we successfully employed a split-intein approach using AAV to deliver an adenine base editor (ABE) to repair the CFTR R553X mutation. Our results suggest that rational incorporation of AAV capsid mutations improves AAV transduction of the airway surface and progenitor cells and may ultimately lead to improved pulmonary function in people with CF.

肺毒性 AAV 病毒外壳的互变可改善转导特性。
人们一直致力于开发基于腺相关病毒(AAV)的载体,用于囊性纤维化(CF)的基因治疗。通过定向进化和病毒盖重组技术,AAV 病毒盖对气道上皮细胞具有广泛的滋养性。例如,AAV2.5T 和 AAV6.2 是两种进化的病毒衣壳,其气道上皮细胞转导特性比亲代血清型有所改善。然而,有关确定其特定细胞滋养特性的研究却十分有限。恢复囊性纤维化跨膜传导调节因子(CFTR)在表面柱状上皮细胞中的表达是纠正 CF 气道表型的必要条件。基底细胞是传导气道的祖细胞群,负责补充表面上皮细胞(包括分泌细胞和离子细胞),因此纠正这一细胞群对长效基因治疗策略至关重要。在这项研究中,我们在分化良好的人气道上皮(HAE)细胞和原代人气道基底细胞的原代培养物中,研究了 AAV 包囊对三种细胞类型的趋向性。我们观察到,AAV2.5T 对表面上皮细胞的转导效果优于 AAV6.2,而 AAV6.2 对气道基底细胞的转导效果优于 AAV2.5T。我们还研究了最近开发的 AAV6.2FF 荚膜,它有两个表面酪氨酸被转化为苯丙氨酸。接下来,我们加入了互变基因,以创造出表面和基础细胞转导特性得到进一步改善的 AAV 荚膜。最后,我们成功地利用 AAV 的分裂内含子方法传递腺嘌呤碱基编辑器 (ABE),以修复 CFTR R553X 突变。我们的研究结果表明,合理加入 AAV 的囊膜突变可以改善 AAV 对气道表面和祖细胞的转导,最终可能会改善 CF 患者的肺功能。
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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CiteScore
7.00
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0.00%
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审稿时长
13 weeks
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