Minibodies and Multimodal Chromatography Methods: A Convergence of Challenge and Opportunity.

BioProcess international Pub Date : 2010-02-01

Pete Gagnon, Chia-Wei Cheung, Eric J Lepin, Anna M Wu, Mark A Sherman, Andrew A Raubitschek, Paul J Yazaki

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Abstract

This case study describes early phase purification process development for a recombinant anticancer minibody produced in mammalian cell culture. The minibody did not bind to protein A. Cation-exchange, anion-exchange, hydrophobic-interaction, and hydroxyapatite (eluted by phosphate gradient) chromatographic methods were scouted, but the minibody coeluted with BSA to a substantial degree on each. Hydroxyapatite eluted with a sodium chloride gradient separated BSA and also removed a dimeric contaminant, but BSA consumed so much binding capacity that this proved impractical as a capture tool. Capto MMC media proved capable of supporting adequate capture and significant dimer removal, although both loading and elution selectivity varied dramatically with the amount of supernatant applied to the column. An anion-exchange step was included to fortify overall virus and DNA removal. These results illustrate the value of multimodal chromatography methods when affinity chromatography methods are lacking and conventional alternatives prove inadequate.

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迷你体和多模式色谱法：挑战与机遇并存。

本案例研究介绍了哺乳动物细胞培养中产生的重组抗癌小体的早期纯化工艺开发。阳离子交换、阴离子交换、疏水相互作用和羟基磷灰石（用磷酸盐梯度洗脱）色谱法都已试用过，但在每种方法中，小抗体都与 BSA 有很大程度的共凝。用氯化钠梯度洗脱的羟基磷灰石分离了 BSA，还去除了二聚污染物，但 BSA 消耗了大量的结合能力，因此作为捕获工具是不切实际的。事实证明，Capto MMC 培养基能够支持充分的捕获和显著的二聚物去除，尽管装载量和洗脱选择性会随着施加到色谱柱上的上清液量而发生巨大变化。此外，还加入了阴离子交换步骤，以加强对病毒和 DNA 的整体去除。这些结果说明了在缺乏亲和层析方法和传统替代方法不充分的情况下，多模式层析方法的价值。

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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BioProcess international

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