Multidose transient transfection of human embryonic kidney 293 cells modulates recombinant adeno-associated virus2/5 Rep protein expression and influences the enrichment fraction of filled capsids

IF 3.5 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biotechnology and Bioengineering Pub Date : 2024-08-23 DOI:10.1002/bit.28828
Prasanna Srinivasan, Christopher T. Canova, Sha Sha, Tam N. T. Nguyen, John Joseph, Jose Sangerman, Andrew J. Maloney, Georgios Katsikis, Rui Wen Ou, Moo Sun Hong, Jaclyn Ng, Arella Yuan, Daniel Antov, Sally Song, Wenyu Chen, Caleb Neufeld, Jacqueline M. Wolfrum, Paul W. Barone, Anthony J. Sinskey, Stacy L. Springs, Richard D. Braatz
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Abstract

Recombinant adeno-associated virus (rAAV) is a commonly used in vivo gene therapy vector because of its nonpathogenicity, long-term transgene expression, broad tropism, and ability to transduce both dividing and nondividing cells. However, rAAV vector production via transient transfection of mammalian cells typically yields a low fraction of filled-to-total capsids (~1%–30% of total capsids produced). Analysis of our previously developed mechanistic model for rAAV2/5 production attributed these low fill fractions to a poorly coordinated timeline between capsid synthesis and viral DNA replication and the repression of later phase capsid formation by Rep proteins. Here, we extend the model by quantifying the expression dynamics of total Rep proteins and their influence on the key steps of rAAV2/5 production using a multiple dosing transfection of human embryonic kidney 293 (HEK293) cells. We report that the availability of preformed empty capsids and viral DNA copies per cell are not limiting to the capsid-filling reaction. However, optimal expression of Rep proteins (<240 ± 13 ag per cell) enables enrichment of the filled capsid population (>12% of total capsids/cell) upstream. Our analysis suggests increased enrichment of filled capsids via regulating the expression of Rep proteins is possible but at the expense of per cell capsid titer in a triple plasmid transfection. Our study reveals an intrinsic limitation of scaling rAAV2/5 vector genome (vg) production and underscores the need for approaches that allow for regulating the expression of Rep proteins to maximize vg titer per cell upstream.

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多剂量瞬时转染人胚肾293细胞可调节重组腺相关病毒2/5 Rep蛋白的表达并影响填充囊壳的富集部分。
重组腺相关病毒(rAAV)是一种常用的体内基因治疗载体,因为它具有非致病性、长期转基因表达、广泛的滋养性以及转染分裂细胞和非分裂细胞的能力。然而,通过瞬时转染哺乳动物细胞生产 rAAV 载体通常只能获得较低比例的填充囊壳(约占生产的囊壳总量的 1%-30%)。对我们之前开发的 rAAV2/5 生产机理模型的分析表明,这些低填充率是由于噬菌体合成和病毒 DNA 复制之间的时间线协调不佳,以及 Rep 蛋白对后期噬菌体形成的抑制。在这里,我们利用多次剂量转染人胚肾 293(HEK293)细胞的方法,通过量化总 Rep 蛋白的表达动态及其对 rAAV2/5 生产关键步骤的影响来扩展该模型。我们报告说,每个细胞中预先形成的空囊壳和病毒 DNA 拷贝的可用性并不限制囊壳填充反应。然而,Rep 蛋白的最佳表达量(12% 的囊膜总量/细胞)在上游。我们的分析表明,通过调节 Rep 蛋白的表达可以提高填充噬菌体的富集度,但要以牺牲三重质粒转染中每个细胞的噬菌体滴度为代价。我们的研究揭示了rAAV2/5载体基因组(vg)生产规模的内在局限性,并强调需要采用能够调节Rep蛋白表达的方法,以最大限度地提高上游每个细胞的vg滴度。
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来源期刊
Biotechnology and Bioengineering
Biotechnology and Bioengineering 工程技术-生物工程与应用微生物
CiteScore
7.90
自引率
5.30%
发文量
280
审稿时长
2.1 months
期刊介绍: Biotechnology & Bioengineering publishes Perspectives, Articles, Reviews, Mini-Reviews, and Communications to the Editor that embrace all aspects of biotechnology. These include: -Enzyme systems and their applications, including enzyme reactors, purification, and applied aspects of protein engineering -Animal-cell biotechnology, including media development -Applied aspects of cellular physiology, metabolism, and energetics -Biocatalysis and applied enzymology, including enzyme reactors, protein engineering, and nanobiotechnology -Biothermodynamics -Biofuels, including biomass and renewable resource engineering -Biomaterials, including delivery systems and materials for tissue engineering -Bioprocess engineering, including kinetics and modeling of biological systems, transport phenomena in bioreactors, bioreactor design, monitoring, and control -Biosensors and instrumentation -Computational and systems biology, including bioinformatics and genomic/proteomic studies -Environmental biotechnology, including biofilms, algal systems, and bioremediation -Metabolic and cellular engineering -Plant-cell biotechnology -Spectroscopic and other analytical techniques for biotechnological applications -Synthetic biology -Tissue engineering, stem-cell bioengineering, regenerative medicine, gene therapy and delivery systems The editors will consider papers for publication based on novelty, their immediate or future impact on biotechnological processes, and their contribution to the advancement of biochemical engineering science. Submission of papers dealing with routine aspects of bioprocessing, description of established equipment, and routine applications of established methodologies (e.g., control strategies, modeling, experimental methods) is discouraged. Theoretical papers will be judged based on the novelty of the approach and their potential impact, or on their novel capability to predict and elucidate experimental observations.
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