Directed evolution of AAV capsids for improved efficacy and specificity of delivery to preclinical models of human liver

Lekarz wojskowy Pub Date : 2023-03-31 DOI:10.53301/lw/156374

M. Kwiatek, A. Michalski, Karolina Abramowicz, Paweł Rutyna, M. Wasiak, M. Reichert, L. Lisowski

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Abstract

Recombinant vectors derived from adeno-associated viruses (rAAVs) are the leading platform in human gene therapy applications, with high-profile examples targeting diseases of the central nervous system, eye and liver. The liver, quite likely a natural host organ for wild type AAV2, is a particularly attractive target for the development of AAV-mediated gene therapies. Despite large number of AAV variants current at various stages of development as carriers of liver therapeutics, thus far no liver-directed AAV-based therapy has obtained market authorization. Strong preclinical data is the cornerstone of any translational program, and while AAV bioengineering is commonly applied to try to develop novel human-tropic vectors for clinical applications, due to species-to-species differences, dedicated vectors to support preclinical work may need to be developed. Here we applied AAV directed evolution and in vitro selection to identify AAV capsids that target human liver cells in vitro.Using DNA shuffling technology, we have generated a capsid gene library based on natural parental serotypes (AAV1 through AAV12). Shuffled capsid library was selected in a preclinical model of human liver.The AAV variants enriched based on their improved efficiency of transduction of a human hepatocyte cell line were vectorized and subsequently functionally characterized on human cell lines. This directed evolution method enabled us to select novel AAV variant, AAV-CH4.2. While the selected variant did not exceed the parental serotype in terms of transduction efficiency, it was substantially more efficient at packaging than its closest homolog, serotypes AAV6.Based on its strong transduction profile and manufacturability, we believe that AAV-CH4.2 is a strong candidate for further evaluation and as a potential novel gene therapy vector for preclinical studies in human liver applications.

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AAV衣壳的定向进化提高了人类肝脏临床前模型的疗效和特异性

源自腺相关病毒（rAAVs）的重组载体是人类基因治疗应用的领先平台，有针对中枢神经系统、眼睛和肝脏疾病的高调例子。肝脏很可能是野生型AAV2的天然宿主器官，是开发AAV介导的基因疗法的一个特别有吸引力的靶点。尽管目前有大量AAV变体作为肝脏治疗的载体处于不同的发展阶段，但到目前为止，还没有一种基于肝脏的AAV治疗获得市场授权。强大的临床前数据是任何转化计划的基石，虽然AAV生物工程通常用于开发用于临床应用的新型人类嗜热载体，但由于物种间的差异，可能需要开发支持临床前工作的专用载体。在这里，我们应用AAV定向进化和体外选择来鉴定体外靶向人类肝细胞的AAV衣壳。使用DNA改组技术，我们已经生成了一个基于天然亲本血清型（AAV1到AAV12）的衣壳基因文库。在人类肝脏的临床前模型中选择了Shuffled衣壳文库。基于其提高的人肝细胞系转导效率而富集的AAV变体被载体化，随后在人细胞系上进行功能表征。这种定向进化方法使我们能够选择新的AAV变体，AAV-CH4.2。虽然所选变体在转导效率方面没有超过亲本血清型，但它在包装方面比其最接近的同源物血清型AAV6更有效。基于其强大的转导特性和可制造性，我们相信AAV-CH4.2是进一步评估的有力候选者，并且是用于人类肝脏应用的临床前研究的潜在的新型基因治疗载体。

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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