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Improving product quality and productivity of bispecific molecules through the application of continuous perfusion principles

灌注 单克隆抗体 化学 细胞培养 表位 生产力 分子 生物物理学 生物化学 双特异性抗体 食品科学 色谱法 生物医学工程 抗体 生物 免疫学 内科学 医学 有机化学 遗传学 宏观经济学 经济
作者
Natalia Gómez,Jonathan Lull,Xiaorui Yang,Yan Wang,Xin Zhang,Agatha Wieczorek,John Harrahy,Mike Pritchard,Diandra Martinez Cano,Michael H. Shearer,Chetan T. Goudar
出处
期刊:Biotechnology Progress [American Chemical Society]
卷期号:36 (4): e2973-e2973 被引量:39
标识
DOI:10.1002/btpr.2973
摘要

Bispecific protein scaffolds can be more complex than traditional monoclonal antibodies (MAbs) because two different sites/domains for epitope binding are needed. Because of this increased molecular complexity, bispecific molecules are difficult to express and can be more prone to physical and chemical degradation compared to MAbs, leading to higher levels of protein aggregates, clipped species, or modified residues in cell culture. In this study, we investigated cell culture performance for the production of three types of bispecific molecules developed at Amgen. In particular, we cultured a total of six CHO cell lines in both an approximately 12-day fed-batch process and an approximately 40-day high-density perfusion process. Harvested cell culture fluid from each process was purified and analyzed for product quality attributes including aggregate levels, clipped species, charge variants, individual amino acid modifications and host cell protein (HCP) content. Our studies showed that in average, the intensified perfusion process increased 15-fold the integrated viable cell density and the total harvested product (and fivefold the daily volumetric productivity) compared to fed-batch. Furthermore, bispecific product quality improved in perfusion culture (as analyzed in affinity-capture pools) with reduction in levels of aggregates (up to 72% decrease), clipped species (up to 75% decrease), acidic variants (up to 76% decrease), deamidated/isomerized species in complementarity-determining regions, and HCP (up to 84% decrease). In summary, the intensified perfusion process exhibited better productivity and product quality, highlighting the potential to use it as part of a continuous manufacturing process for bispecific scaffolds.
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