Seeking Innovative Affinity Approaches: A Performance Comparison between Magnetic Nanoparticle Agglomerates and Chromatography Resins for Antibody Recovery

材料科学 纳米颗粒 位阻效应 表面改性 磁性纳米粒子 亲和层析 免疫球蛋白G 色谱法 结块 纳米技术 化学工程 磁铁矿 单克隆抗体 千分尺 基质(化学分析) 聚合物 比表面积 蛋白质A 分子 金属 蛋白质G 化学计量学 碎片结晶区 凝胶渗透色谱法
作者
Priyanka Padwal,Constanze Finger,Paula Fraga‐García,Yasmin Kaveh-Baghbaderani,Sebastian P. Schwaminger,Sonja Berensmeier
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:12 (36): 39967-39978 被引量:16
标识
DOI:10.1021/acsami.0c05007
摘要

Monoclonal antibodies are key molecules in medicine and pharmaceuticals. A potentially crucial drawback for faster advances in research here is their high price due to the extremely expensive antibody purification process, particularly the affinity capture step. Affinity chromatography materials have to demonstrate the high binding capacity and recovery efficiency as well as superior chemical and mechanical stability. Low-cost materials and robust, faster processes would reduce costs and enhance industrial immunoglobulin purification. Therefore, exploring the use of alternative materials is necessary. In this context, we conduct the first comparison of the performance of magnetic nanoparticles with commercially available chromatography resins and magnetic microparticles with regard to immobilizing Protein G ligands and recovering immunoglobulin G (IgG). Simultaneously, we demonstrate the suitability of bare as well as silica-coated and epoxy-functionalized magnetite nanoparticles for this purpose. All materials applied have a similar specific surface area but differ in the nature of their matrix and surface accessibility. The nanoparticles are present as micrometer agglomerates in solution. The highest Protein G density can be observed on the nanoparticles. IgG adsorbs as a multilayer on all materials investigated. However, the recovery of IgG after washing indicates a remaining monolayer, which points to the specificity of the IgG binding to the immobilized Protein G. One important finding is the impact of the ligand-binding stoichiometry (Protein G surface coverage) on IgG recovery, reusability, and the ability to withstand long-term sanitization. Differences in the materials' performances are attributed to mass transfer limitations and steric hindrance. These results demonstrate that nanoparticles represent a promising material for the economical and efficient immobilization of proteins and the affinity purification of antibodies, promoting innovation in downstream processing.
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