Interrogation of Structure-Activity Relationships in Charge Variants of Therapeutic IgG2s Enabled by Free-Flow Isoelectric Focusing Fractionation.

IF 5.4 2区医学 Q1 IMMUNOLOGY

BioDrugs Pub Date : 2025-04-22 DOI:10.1007/s40259-025-00718-0

Lingyu Wang, Yajun Zeng, Wenyuan Gao, Pengcheng Shen, Ping Han, Zhongli Zhang

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引用次数: 0

Abstract

Background: Recombinant immunoglobulin G2 (IgG2) antibodies are effective neutralization agents or antagonists with high medical value because of their high specificity, long half-life, and absent effector functions. During biopharmaceutical process development, charge heterogeneity and bioactivity alternation related to charge variation should be investigated to understand the structure-activity relationship (SAR) in therapeutic antibodies. Isoelectric focusing can provide fine resolution for the charge heterogeneity profiling of IgG2, while ion exchange chromatography cannot achieve effective separation of IgG2 charge variants. In-depth investigation of charge heterogeneity requires a fractionation tool to enrich and isolate acidic and basic variants.

Objectives: This study aims to investigate the structural origins and functional implications of charge heterogeneity in two therapeutic IgG2 antibodies, including an anti-receptor activator of nuclear factor κ-B ligand (RANKL) biosimilar of denosumab and an innovative anti-CD73 IgG2 (H-mab), using free-flow isoelectric focusing (FF-IEF).

Methods: Charge variants of denosumab and H-mab were fractionated using FF-IEF, followed by characterization of isolated IgG2 charge variants to establish the SAR between charge-related antibody modifications and bioactivities. The investigation incorporated in silico 3D modeling of the FcRn-IgG2 Fc complex and the CD73-Fab complex to facilitate the SAR interrogation of these two IgG2s.

Results: The acidic charge variants of denosumab were driven primarily by N-glycan sialylation and deamidation in the Fc region, showing negligible effects on biological functions except for a reproducible reduction in FcRn binding affinity. In contrast, the basic charge variants of H-mab were associated with D₉₉-succinimide formation in the heavy chain complementarity-determining region 3 (CDR3), significantly impairing binding and enzymatic inhibition activities.

Conclusions: This study underscores the irreplaceable role of FF-IEF in both biosimilar and innovative therapeutic pipelines, highlighting the importance of monitoring charge heterogeneity and understanding SAR in therapeutic IgG2 antibodies.

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自由流动等电聚焦分离诱导的治疗性IgG2s电荷变体的构效关系研究。

背景：重组免疫球蛋白G2 （IgG2）抗体具有特异性高、半衰期长、无效应作用等特点，是一种有效的中和剂或拮抗剂，具有很高的医学价值。在生物制药工艺开发过程中，需要研究与电荷变化相关的电荷异质性和生物活性变化，以了解治疗性抗体的构效关系（SAR）。等电聚焦可以为IgG2的电荷异质性分析提供较好的分辨率，而离子交换色谱法无法实现IgG2电荷变异的有效分离。深入研究电荷非均质性需要分馏工具来富集和分离酸性和碱性变体。目的：本研究旨在研究两种治疗性IgG2抗体的结构起源和电荷异质性的功能意义，包括denosumab的抗核因子κ-B配体抗受体激活剂（RANKL）生物类似物和创新抗cd73 IgG2 (H-mab)，使用自由流等电聚焦（FF-IEF）。方法：利用FF-IEF分离denosumab和H-mab的电荷变体，然后对分离的IgG2电荷变体进行表征，建立电荷相关抗体修饰与生物活性之间的SAR关系。该研究结合了FcRn-IgG2 Fc复合物和CD73-Fab复合物的硅三维建模，以促进对这两个IgG2s的SAR询问。结果：denosumab的酸性电荷变异主要由Fc区域的n -聚糖唾液化和脱酰胺化驱动，除了可重复地降低FcRn结合亲和力外，对生物功能的影响可以忽略不计。相比之下，H-mab的碱性电荷变体与重链互补决定区3 （CDR3）中的d99 -琥珀酰亚胺形成相关，显著损害了结合和酶抑制活性。结论：本研究强调了FF-IEF在生物仿制药和创新治疗管道中不可替代的作用，强调了监测治疗性IgG2抗体的电荷异质性和理解SAR的重要性。

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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来源期刊

BioDrugs 医学-免疫学

CiteScore

12.60

自引率

2.90%

发文量

审稿时长

>12 weeks

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