使用实验和计算方法评估和工程化抗体稳定性。

Assessing and Engineering Antibody Stability Using Experimental and Computational Methods.

机构信息

Department of Biochemical Engineering, University College London, London, UK.

出版信息

Methods Mol Biol. 2023;2552:165-197. doi: 10.1007/978-1-0716-2609-2_9.

Abstract

Engineering increased stability into antibodies can improve their developability. While a range of properties need to be optimized, thermal stability and aggregation are two key factors that affect the antibody yield, purity, and specificity throughout the development and manufacturing pipeline. Therefore, an ideal goal would be to apply protein engineering methods early-on, such as in parallel to affinity maturation, to screen out potential drug molecules with the desired conformational and colloidal stability. This chapter introduces our methods to computationally characterize an antibody Fab fragment, propose stabilizing variants, and then experimentally verify these predictions.

摘要

工程改造抗体的稳定性可以提高其可开发性。虽然需要优化一系列性质，但热稳定性和聚集性是影响抗体产量、纯度和特异性的两个关键因素，贯穿于开发和制造过程。因此，理想的目标是尽早应用蛋白质工程方法，如与亲和力成熟并行，筛选出具有所需构象和胶体稳定性的潜在药物分子。本章介绍了我们的方法，即计算表征抗体 Fab 片段，提出稳定变体，然后通过实验验证这些预测。

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使用实验和计算方法评估和工程化抗体稳定性。

Assessing and Engineering Antibody Stability Using Experimental and Computational Methods.

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