针对单克隆抗体特异性可逆自缔合的能量剖析揭示了独特的热力学特征。

Energetic Dissection of Mab-Specific Reversible Self-Association Reveals Unique Thermodynamic Signatures.

作者信息

Hopkins Mandi M, Parupudi Arun, Bee Jared S, Bain David L

机构信息

Department of Pharmaceutical Sciences, University of Colorado Anschutz Medical Campus, Aurora, Colorado, 80045, USA.

Formulation Development, Regeneron Pharmaceuticals, Tarrytown, New York, 10591, USA.

出版信息

Pharm Res. 2021 Feb;38(2):243-255. doi: 10.1007/s11095-021-02987-0. Epub 2021 Feb 18.

DOI:10.1007/s11095-021-02987-0

PMID:33604786

Abstract

PURPOSE

Reversible self-association (RSA) remains a challenge in the development of therapeutic monoclonal antibodies (mAbs). We recently analyzed the energetics of RSA for five IgG mAbs (designated as A-E) under matched conditions and using orthogonal methods. Here we examine the thermodynamics of RSA for two of the mAbs that showed the strongest evidence of RSA (mAbs C and E) to identify underlying mechanisms.

METHODS

Concentration-dependent dynamic light scattering and sedimentation velocity (SV) studies were carried out for each mAb over a range of temperatures. Because self-association was weak, the SV data were globally analyzed via direct boundary fitting to identify best-fit models, accurately determine interaction energetics, and account for the confounding effects of thermodynamic and hydrodynamic nonideality.

RESULTS

mAb C undergoes isodesmic self-association at all temperatures examined, with the energetics indicative of an enthalpically-driven reaction offset by a significant entropic penalty. By contrast, mAb E undergoes monomer-dimer self-association, with the reaction being entropically-driven and comprised of only a small enthalpic contribution.

CONCLUSIONS

Classical interpretations implicate van der Waals interactions and H-bond formation for mAb C RSA, and electrostatic interactions for mAb E. However, noting that RSA is likely coupled to additional equilibria, we also discuss the limitations of such interpretations.

摘要

目的

可逆自缔合（RSA）仍是治疗性单克隆抗体（mAb）研发中的一项挑战。我们最近在匹配条件下并使用正交方法分析了5种IgG单克隆抗体（命名为A - E）的RSA能量学。在此，我们研究了显示出最强RSA证据的两种单克隆抗体（单克隆抗体C和E）的RSA热力学，以确定潜在机制。

方法

在一系列温度范围内对每种单克隆抗体进行浓度依赖性动态光散射和沉降速度（SV）研究。由于自缔合较弱，通过直接边界拟合对SV数据进行全局分析，以识别最佳拟合模型、准确确定相互作用能量，并考虑热力学和流体动力学非理想性的混杂效应。

结果

在所有检测温度下，单克隆抗体C发生等键自缔合，其能量学表明这是一个由焓驱动的反应，但被显著的熵罚所抵消。相比之下，单克隆抗体E发生单体 - 二聚体自缔合，该反应由熵驱动，且仅包含少量的焓贡献。

结论

传统解释认为单克隆抗体C的RSA涉及范德华相互作用和氢键形成，单克隆抗体E的RSA涉及静电相互作用。然而，注意到RSA可能与其他平衡相关联，我们也讨论了此类解释的局限性。

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针对单克隆抗体特异性可逆自缔合的能量剖析揭示了独特的热力学特征。

Energetic Dissection of Mab-Specific Reversible Self-Association Reveals Unique Thermodynamic Signatures.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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