Antibody Aggregation: A Problem Within the Biopharmaceutical Industry and Its Role in AL Amyloidosis Disease.

Kate Sheehan, Hyesoo Jeon, Sinéad C Corr, Jerrard M Hayes, K H Mok
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Abstract

Due to the large size and rapid growth of the global therapeutic antibody market, there is major interest in understanding the aggregation of protein products as it can compromise efficacy, concentration, and safety. Various production and storage conditions have been identified as capable of inducing aggregation of polyclonal and monoclonal antibody (mAb) therapies such as low pH, freezing, light exposure, lyophilisation and increased ionic strength. The addition of stabilising excipients to these therapeutics helps to combat the formation of aggregates with future aggregation inhibition mechanisms involving the introduction of point mutations and glycoengineering within aggregation prone regions (APRs). Antibody aggregation also plays an integral role in the pathogenesis of a condition known as amyloid light chain (AL) amyloidosis which is characterised by the production of improperly folded and amyloidogenic immunoglobulin light chains (LCs). Current diagnostic tools rely heavily on histological staining with their future moving towards amyloid component identification and proteomic analysis. For many years, treatment options designed for multiple myeloma (MM) have been applied to AL amyloidosis patients by depleting plasma cell numbers. More recently, treatment strategies more specific to this condition have been developed with many designed to recognize amyloid fibrils and trigger their degradation without causing systemic plasma cell cytotoxicity. Amyloid fibrils in AL disease and aggregates in antibody therapeutics are both formed through the oligomerisation of misfolded / modified proteins attempting to reach a thermodynamically stable, free energy minimum that is lower than the respective monomers themselves. Although the final morphologies are different, by understanding the principles underlying such aggregation, we expect to find common insights that may contribute to the development of new and effective methods of antibody aggregation and/or amyloidosis management. We envision that this area of research will continue to be very relevant in both industry and clinical settings.

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抗体聚集:生物制药行业的一个问题及其在 AL 淀粉样变性疾病中的作用。
由于全球治疗性抗体市场规模庞大且增长迅速,人们对了解蛋白质产品的聚集问题产生了浓厚的兴趣,因为它可能会影响疗效、浓度和安全性。各种生产和储存条件已被确认能够诱发多克隆和单克隆抗体(mAb)疗法的聚集,如低 pH 值、冷冻、光照、冻干和离子强度增加。在这些疗法中添加稳定辅料有助于抑制聚集体的形成,未来的聚集抑制机制包括在易聚集区(APR)内引入点突变和糖工程。抗体聚集在淀粉样轻链(AL)淀粉样变性病的发病机制中也起着不可或缺的作用,该病的特点是产生折叠不当的淀粉样免疫球蛋白轻链(LC)。目前的诊断工具在很大程度上依赖于组织学染色,其未来发展方向是淀粉样蛋白成分鉴定和蛋白质组分析。多年来,针对多发性骨髓瘤(MM)的治疗方案一直通过消耗浆细胞数量来治疗 AL 淀粉样变性患者。最近,针对这种病症开发出了更具针对性的治疗策略,其中许多策略旨在识别淀粉样纤维并促使其降解,同时不会引起全身性浆细胞细胞毒性。AL 疾病中的淀粉样纤维和抗体疗法中的聚集体都是通过错误折叠/修饰蛋白质的低聚作用形成的,这种低聚作用试图达到热力学稳定的自由能最小值,该值低于各自的单体本身。虽然最终的形态各异,但通过了解这种聚集的基本原理,我们希望找到共同的见解,从而有助于开发新的、有效的抗体聚集和/或淀粉样变性管理方法。我们预计,这一研究领域将继续在工业和临床领域发挥重要作用。
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Antibody Aggregation: A Problem Within the Biopharmaceutical Industry and Its Role in AL Amyloidosis Disease. DAAO Mutant Sites among Different Mice Strains and Their Effects on Enzyme Activity. Expression of Recombinant Stonustoxin Alpha Subunit and Preparation of polyclonal antiserum for Stonustoxin Neutralization Studies.
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