A novel IgG Fc by computer-aided design enhances heavy-chain heterodimerization in bi- or trispecific antibodies.

Q2 Medicine Antibody Therapeutics Pub Date : 2022-08-01 eCollection Date: 2022-07-01 DOI:10.1093/abt/tbac019

Bo Wang, Jun Lin, Matthew R Hoag, Meredith Wright, Mingjun Ma, Wenyan Cai, Sachith Gallolu Kankanamalage, Yue Liu

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Abstract

The classical `knob-into-holes' (KIH) strategy (knob(T366Y)/hole (Y407T)) has successfully enhanced the heterodimerization of a bispecific antibody (BsAb) resulting in heterodimer formation up to 92% of protein A (ProA)-purified protein pool. However, it does not show high efficiency for every BsAb. KIH was initially applied to a CD20/CD3 BsAb. After in silico modeling, two additional new mutations, S354Y in knob-heavy chain (HC) and Q347E in hole-HC, together with KIH named `ETYY', were introduced in the Fc. The CD20/CD3 BsAb hybrid only represented ~ 50% of the ProA-purified protein pool when KIH was applied. With ETYY, the percentage of CD20/CD3 hybrid increased to 93.8%. CD20/CD3-v4b (containing ETYY) retains the original activity of the BsAb at both Fab and Fc regions, and also shows good developability. These results indicate that the computer-aided novel ETYY design has the potential to improve the development of next-generation BsAbs with higher yields and simpler purification.

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计算机辅助设计的一种新型IgG Fc增强了双特异性或三特异性抗体的重链异源二聚化。

经典的“旋钮入孔”(KIH)策略(旋钮(T366Y)/孔(Y407T))成功地增强了双特异性抗体(BsAb)的异源二聚体，导致高达92%的蛋白a (ProA)纯化蛋白池形成异源二聚体。然而，并不是每一个BsAb都具有很高的效率。KIH最初应用于CD20/CD3 BsAb。在硅模拟后，在Fc中引入了两个新的突变，即重旋钮链(HC)中的S354Y和孔HC中的Q347E，以及命名为“ETYY”的KIH。当应用KIH时，CD20/CD3 BsAb杂交仅占proa纯化蛋白池的约50%。经ETYY处理后，CD20/CD3杂交比例提高到93.8%。CD20/CD3-v4b(含ETYY)在Fab区和Fc区均保留了BsAb原有的活性，并表现出良好的可展性。这些结果表明，计算机辅助的新型ETYY设计具有提高产量和更简单纯化的下一代bsab的发展潜力。

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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