Development and Validation of AAV Capsids Separation on Specimen Columns for Reproducibility Evaluation of Large-Scale Chromatographic Monoliths

IF 2.8 3区工程技术 Q2 CHEMISTRY, ANALYTICAL

Journal of separation science Pub Date : 2025-03-17 DOI:10.1002/jssc.70114

Rok Miklavčič, Tina Simčič, Sara Rotar, Polona Komel, Rok Žigon, Dona Pavlovič, Ines Bergoč, Domen Ipavec, Ana Simčič Zuljan, Ažbe Žnidaršič, Dolores Kukanja, Jana Vidič, Aleš Štrancar, Urh Černigoj

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引用次数: 0

Abstract

One of the key challenges in adeno-associated virus (AAV) viral vector manufacturing is the effective and consistent separation of full (F) AAV capsids from undesired non-functional (empty = E, partially filled, etc.) capsids. Typically, at least one chromatography step is used for this purpose in AAV manufacturing. Due to the complexity of viral capsids separation, even a small change in the chromatographic process is reflected in unreproducible results. One solution for robust polishing of full AAV capsids is the highly reproducible (HR) design of chromatographic columns used in this step. Implementation of such columns requires the development of control tests, which efficiently predict column performance for AAV separation. In this paper, the methodology for reproducible separation of empty and full recombinant AAV2/8 (E/F rAAV2/8) capsids was defined using quaternary amine (QA) chromatographic monoliths in a linear potassium chloride (KCl) gradient. The scalability of the procedure was experimentally confirmed on 1, 80, and 800 mL CIMmultus QA columns, where empty capsids eluted at a KCl concentration range of 89.4–91.4 mM. A sampling of the monolith material from the 800 mL CIMmultus QA column and testing it for E/F rAAV2/8 capsid separation in the form of a 200 µL column resulted in a highly comparable elution pattern as obtained with the parent 800 mL column. The principle of sampling material by cutting the parent monolith, packing it in 200 µL columns (specimens) and testing them for E/F rAAV2/8 capsid separation was further developed to demonstrate intra-column homogeneity; batch-to-batch homogeneity; and scalability of CIM QA monoliths. Finally, specimens testing using a validated E/F rAAV2/8 separation method was used to monitor 28 CIMmultus QA production batches (bed volumes between 1 and 8000 mL). E rAAV2/8 capsids eluted at KCl concentration between 89.3 and 95.3 mM for 28 batches, paving the way for commercialization of highly reproducible preparative QA chromatographic monoliths (CIMmultus QA HR).

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AAV衣壳分离在样品柱上的发展和验证，用于大规模色谱单体重现性评价

腺相关病毒（AAV）病毒载体生产过程中面临的主要挑战之一是如何有效、稳定地将完整（F）AAV 病毒衣壳与不需要的无功能（空 = E、部分填充等）病毒衣壳分离开来。通常情况下，在 AAV 生产过程中至少有一个色谱步骤用于此目的。由于病毒衣壳分离的复杂性，即使是色谱过程中的一个微小变化都会导致结果不可重复。对完整 AAV 病毒衣壳进行强力抛光的一种解决方案是对这一步骤中使用的色谱柱进行高重现性（HR）设计。采用这种色谱柱需要开发控制测试，以有效预测 AAV 分离的色谱柱性能。本文确定了在线性氯化钾（KCl）梯度中使用季胺（QA）色谱整体分离空壳和全壳重组 AAV2/8（E/F rAAV2/8）的方法。该程序的可扩展性在 1、80 和 800 mL CIMmultus QA 色谱柱上得到了实验证实，空的噬菌体在 89.4-91.4 mM 的氯化钾浓度范围内洗脱。从 800 mL CIMmultus QA 色谱柱上取样，以 200 µL 色谱柱的形式测试 E/F rAAV2/8 粒衣壳的分离效果，其洗脱模式与 800 mL 母色谱柱非常相似。通过切割母体单体、将其装入 200 µL 色谱柱（试样）并对其进行 E/F rAAV2/8 荚膜分离测试的取样原理得到了进一步发展，从而证明了 CIM QA 单体的柱内均匀性、批次间均匀性和可扩展性。最后，使用经过验证的 E/F rAAV2/8 分离方法对 28 个 CIMmultus QA 生产批次（床体积在 1 至 8000 mL 之间）进行了试样测试。在 28 个批次中，E rAAV2/8 包囊在 KCl 浓度为 89.3 至 95.3 mM 之间时洗脱，这为高重现性制备型 QA 色谱整体（CIMmultus QA HR）的商业化铺平了道路。

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来源期刊

Journal of separation science 化学-分析化学

CiteScore

6.30

自引率

16.10%

发文量

408

审稿时长

1.8 months

期刊介绍： The Journal of Separation Science (JSS) is the most comprehensive source in separation science, since it covers all areas of chromatographic and electrophoretic separation methods in theory and practice, both in the analytical and in the preparative mode, solid phase extraction, sample preparation, and related techniques. Manuscripts on methodological or instrumental developments, including detection aspects, in particular mass spectrometry, as well as on innovative applications will also be published. Manuscripts on hyphenation, automation, and miniaturization are particularly welcome. Pre- and post-separation facets of a total analysis may be covered as well as the underlying logic of the development or application of a method.