Role of harvest depth filtration in controlling product-related impurities for a bispecific antibody.

Q2 Medicine Antibody Therapeutics Pub Date : 2022-09-26 eCollection Date: 2022-10-01 DOI:10.1093/abt/tbac023
Ehsan Espah Borujeni, Weixin Jin, Chun Shao, Naresh Chennamsetty, Xuankuo Xu, Sanchayita Ghose
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引用次数: 1

Abstract

Abstract Background Bispecific antibodies (BsAb) belong to a novel antibody category with advantages over traditional mono-specific therapeutic antibodies. However, product variants are also commonly seen during the production of BsAb, which poses significant challenges to downstream processing. In this study, the adsorptive characteristics of a BsAb product and its variants were investigated for a set of depth filters during primary recovery of the cell culture fluid. Methods The retention of the BsAb product and its variants on a set of Millistak+® D0HC and X0HC depth filters were first investigated, followed by studying the mechanism of their adsorption on the depth filters. The chemical and structural properties of depth filters along with the molecular properties of the product and its variants were studied subsequently. Results The X0HC filter was found to be able to retain a significant amount of low molecular weight (LMW) variants along with a low amount of main product retained. Different levels of retention, observed for these variants, were correlated to their different hydrophobic and charge characteristics in relation with the adsorptive properties of the depth filters used. Electrostatic, hydrophobic, and hydrogen bonding interactions were found to be the key forces to keep product variants retained on the depth filter where the higher hydrophobicity of the LMW variants may cause them to be preferentially retained. Conclusion Harvest depth filters potentially can be utilized for retaining the BsAb variants, which depends on relative molecular properties of the product and its variants and adsorptive properties of the depth filters used.

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收获深度过滤在控制双特异性抗体产品相关杂质中的作用。
背景:双特异性抗体(BsAb)是一种新型抗体,与传统的单特异性治疗抗体相比具有优势。然而,在BsAb的生产过程中,产品变体也很常见,这对下游加工构成了重大挑战。在本研究中,研究了一种BsAb产品及其变体在细胞培养液初级回收过程中对一组深度过滤器的吸附特性。方法:首先考察BsAb产品及其变体在Millistak+®D0HC和X0HC深度过滤器上的滞留情况,然后研究其在深度过滤器上的吸附机理。随后研究了深度过滤器的化学和结构特性以及产品及其变体的分子特性。结果:发现X0HC过滤器能够保留大量的低分子量(LMW)变体,同时保留少量的主要产品。观察到这些变体的不同保留水平与它们不同的疏水性和电荷特性有关,这些特性与所使用的深度过滤器的吸附特性有关。静电、疏水和氢键相互作用被发现是保持产物变体保留在深度过滤器上的关键力量,其中LMW变体的高疏水性可能导致它们优先保留。结论:收获深度过滤器可用于保留BsAb变体,这取决于产品及其变体的相对分子特性和所使用深度过滤器的吸附性能。
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来源期刊
Antibody Therapeutics
Antibody Therapeutics Medicine-Immunology and Allergy
CiteScore
8.70
自引率
0.00%
发文量
30
审稿时长
8 weeks
期刊最新文献
AI-based antibody discovery platform identifies novel, diverse, and pharmacologically active therapeutic antibodies against multiple SARS-CoV-2 strains. FcRider: a recombinant Fc nanoparticle with endogenous adjuvant activities for hybrid immunization. A pan-allelic human SIRPα-blocking antibody, ES004-B5, promotes tumor killing by enhancing macrophage phagocytosis and subsequently inducing an effective T-cell response. Correction to: A case study of a bispecific antibody manufacturability assessment and optimization during discovery stage and its implications. The process using a synthetic library that generates multiple diverse human single domain antibodies.
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