Optimization of an adeno-associated viral vector for epidermal keratinocytes in vitro and in vivo

Qi Shen , Shogo Suga , Yuta Moriwaki , Zening Du , Emi Aizawa , Mutsumi Okazaki , Juan Carlos Izpisua Belmonte , Yusuke Hirabayashi , Keiichiro Suzuki , Masakazu Kurita
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Abstract

Background

Local gene therapies, including in vivo genome editing, are highly anticipated for the treatment of genetic diseases in skin, especially the epidermis. While the adeno-associated virus (AAV) is a potent vector for in vivo gene delivery, the lack of efficient gene delivery methods has limited its clinical applications.

Objective

To optimize the AAV gene delivery system with higher gene delivery efficiency and specificity for epidermis and keratinocytes (KCs), using AAV capsid and promoter engineering technologies.

Methods

AAV variants with mutations in residues reported to be critical to determine the tropism of AAV2 for KCs were generated by site-directed mutagenesis of AAVDJ. The infection efficiency and specificity for KCs of these variants were compared with those of previously reported AAVs considered to be suitable for gene delivery to KCs in vitro and in vivo. Additionally, we generated an epidermis-specific promoter using the most recent short-core promoter and compared its specificity with existing promoters.

Results

A novel AAVDJ variant capsid termed AAVDJK2 was superior to the existing AAVs in terms of gene transduction efficiency and specificity for epidermis and KCs in vitro and in vivo. A novel tissue-specific promoter, termed the K14 SCP3 promoter, was superior to the existing promoters in terms of gene transduction efficiency and specificity for KCs.

Conclusion

The combination of the AAVDJK2 capsid and K14 SCP3 promoter improves gene delivery to epidermis in vivo and KCs in vitro. The novel AAV system may benefit experimental research and development of new epidermis-targeted gene therapies.

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体外和体内表皮角质细胞腺相关病毒载体的优化。
背景:包括体内基因组编辑在内的局部基因疗法在治疗皮肤(尤其是表皮)遗传疾病方面备受期待。虽然腺相关病毒(AAV)是体内基因递送的有效载体,但缺乏高效的基因递送方法限制了其临床应用:目的:利用 AAV 的囊膜和启动子工程技术,优化 AAV 基因递送系统,提高表皮和角质形成细胞(KCs)的基因递送效率和特异性:方法:通过定点突变AAVDJ产生了AAV变体,这些变体的残基据报道是决定AAV2对KCs滋养性的关键。我们将这些变体对KC的感染效率和特异性与之前报道的被认为适合在体外和体内向KC传递基因的AAV进行了比较。此外,我们使用最新的短核启动子生成了表皮特异性启动子,并将其特异性与现有启动子进行了比较:结果:一种名为 AAVDJK2 的新型 AAVDJ 变体包囊在体外和体内的基因转导效率以及对表皮和 KC 的特异性方面优于现有的 AAV。被称为 K14 SCP3 启动子的新型组织特异性启动子在基因转导效率和对 KCs 的特异性方面优于现有的启动子:结论:AAVDJK2包囊与K14 SCP3启动子的结合提高了体内表皮和体外KCs的基因转导效率。这种新型的 AAV 系统可能有利于表皮靶向基因疗法的实验研究和开发。
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