Multi-column continuous chromatography effectively improves the robustness of bind-elute mode chromatography in which a pre-elution wash is applied to reduce weakly bound impurities and charge variants.

Journal of biological methods Pub Date : 2025-02-27 eCollection Date: 2025-01-01 DOI:10.14440/jbm.2025.0105

Gaoya Yuan, Meng Qu, Yingyue Bu, Xudong Zhang, Yifeng Li

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Abstract

Background: For the purification of monoclonal antibodies, we employed a wash step in the cation exchange (CEX) chromatography to reduce acidic charge variants. Although optimal wash conditions, determined under a specific loading density, ensured both effective reduction of charge variants and good process yield, applying the same wash conditions to runs where the loading density moderately deviated from the optimal value could result in insufficient reduction of charge variants or low step yield. This issue is particularly problematic with large-scale manufacturing, where the same wash condition (including buffer and volume) is applied across all runs, despite variations in loading density due to fluctuations in harvest titer.

Objective: To address this problem, we intended to demonstrate that multi-column continuous chromatography could offer an effective solution.

Methods: A multi-column setup was implemented, in which all runs except the final one were performed under optimal conditions to ensure both high product quality and yield.

Results: The multi-column approach allowed for both effective charge variant reduction and achievement of good step yield. Although the final run might be conducted under suboptimal conditions, potentially compromising quality or yield, its impact is minimal, as it contributed only a small fraction to the total product, thereby exerting a limited effect on overall quality and yield.

Conclusion: The current study successfully demonstrated the proof-of-concept using CEX chromatography. In fact, the multi-column strategy proposed here may provide a universal solution to the load-dependence issue in wash steps that is aimed at removing or reducing weakly bound impurities or charge variants in any type of bind-elute mode chromatography.

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多柱连续色谱有效地提高了结合-洗脱模式色谱的稳健性，在这种模式中，洗脱前的洗涤可以减少弱结合的杂质和电荷变化。

背景：为了纯化单克隆抗体，我们采用了阳离子交换（CEX）色谱中的洗涤步骤来减少酸性电荷变异。虽然在特定负载密度下确定的最佳洗涤条件确保了有效减少电荷变化和良好的工艺产率，但如果将相同的洗涤条件应用于负载密度适度偏离最佳值的运行，则可能导致电荷变化减少不足或台阶产率低。这个问题在大规模生产中尤其成问题，因为尽管由于收获滴度的波动而导致装载密度的变化，但在所有运行中都应用相同的洗涤条件（包括缓冲液和体积）。目的：为了解决这一问题，我们试图证明多柱连续色谱法可以提供有效的解决方案。方法：采用多柱色谱法，除最后一道工序外，其余工序均在最佳条件下进行，以保证较高的产品质量和收率。结果：多柱法既能有效地减少电荷变化，又能获得良好的台阶收率。虽然最终运行可能在次优条件下进行，可能会影响质量或产量，但其影响是最小的，因为它只贡献了总产品的一小部分，因此对整体质量和产量的影响有限。结论：本研究成功地证明了CEX色谱的概念验证。事实上，这里提出的多柱策略可以为洗涤步骤中的负载依赖问题提供通用解决方案，旨在去除或减少任何类型的结合-洗脱模式色谱中的弱结合杂质或电荷变体。

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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Journal of biological methods

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