HEK-Omics: The promise of omics to optimize HEK293 for recombinant adeno-associated virus (rAAV) gene therapy manufacturing

Sai Guna Ranjan Gurazada, Hannah M. Kennedy, Richard D. Braatz, Steven J. Mehrman, Shawn W. Polson, Irene T. Rombel
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Abstract

Gene therapy is poised to transition from niche to mainstream medicine, with recombinant adeno-associated virus (rAAV) as the vector of choice. However, this requires robust, scalable, industrialized production to meet demand and provide affordable patient access, which has thus far failed to materialize. Closing the chasm between demand and supply requires innovation in biomanufacturing to achieve the essential step change in rAAV product yield and quality. Omics provides a rich source of mechanistic knowledge that can be applied to HEK293, the prevailing cell line for rAAV production. In this review, the findings from a growing number of disparate studies that apply genomics, epigenomics, transcriptomics, proteomics, and metabolomics to HEK293 bioproduction are explored. Learnings from CHO-Omics, application of omics approaches to improve CHO bioproduction, provide context for the potential of "HEK-Omics" as a multiomics-informed approach providing actionable mechanistic insights for improved transient and stable production of rAAV and other recombinant products in HEK293.
HEK-Omics:omics有望优化用于重组腺相关病毒(rAAV)基因治疗生产的HEK293
基因疗法正准备从小众医学过渡到主流医学,而重组腺相关病毒(rAAV)则是首选载体。然而,这需要强大、可扩展的工业化生产来满足需求,并为患者提供可负担得起的治疗机会,而这一点迄今尚未实现。要弥合供需之间的鸿沟,就必须在生物制造方面进行创新,以实现 rAAV 产品产量和质量的根本性转变。Omics 提供了丰富的机理知识,这些知识可应用于生产 rAAV 的主流细胞系 HEK293。在这篇综述中,我们探讨了越来越多不同研究的发现,这些研究将基因组学、表观基因组学、转录组学、蛋白质组学和代谢组学应用于 HEK293 生物生产。从 "CHO-Omics"(应用组学方法改进 CHO 生物生产)中汲取的经验为 "HEK-Omics "的潜力提供了背景,"HEK-Omics "是一种多组学知情方法,可为改进 HEK293 中 rAAV 和其他重组产品的瞬时和稳定生产提供可操作的机理见解。
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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