去除铰链区：一种制备无效应器单克隆抗体的方法。

Taking the Hinge off: An Approach to Effector-Less Monoclonal Antibodies.

作者信息

Valeich Jamie, Boyd Dan, Kanwar Manu, Stenzel Daniel, De Ghosh Deblina, Ebrahimi Arpa, Woo James, Wang Jenny, Ambrogelly Alexandre

机构信息

Pharmaceutical & Biologics Development, Gilead Sciences, 4010 Ocean Ranch Blvd, Oceanside, CA 92056, USA.

出版信息

Antibodies (Basel). 2020 Sep 23;9(4):50. doi: 10.3390/antib9040050.

DOI:10.3390/antib9040050

PMID:32977708

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7709103/

Abstract

A variety of Fc domain engineering approaches for abrogating the effector functions of mAbs exists. To address some of the limitations of the current Fc domain silencing approaches, we are exploring a less commonly considered option which relies on the deletion of the hinge. Removal of the hinge domain in humanized IgG1 and IgG4 mAbs obliterates their ability to bind to activating human Fc gamma receptors I and IIIA, while leaving their ability to engage their target antigen intact. Deletion of the hinge also reduces binding to the Fc neonatal receptor, although Fc engineering allows partial recovery of affinity. Engineering of the CH3 domain, stabilizes hinge deleted IgG4s and prevents Fab arm exchange. The faster clearing properties together with the pacified Fc make modality of the hinge deleted mAb an appealing solution for therapeutic and diagnostic applications.

摘要

存在多种用于消除单克隆抗体效应功能的Fc结构域工程方法。为了解决当前Fc结构域沉默方法的一些局限性，我们正在探索一种较少被考虑的选择，即依赖于铰链区的缺失。在人源化IgG1和IgG4单克隆抗体中去除铰链区会消除它们与激活型人Fcγ受体I和IIIA结合的能力，同时保持它们与靶抗原结合的能力不变。铰链区的缺失也会减少与Fc新生儿受体的结合，尽管Fc工程允许亲和力部分恢复。CH3结构域的工程改造可稳定缺失铰链区的IgG4，并防止Fab臂交换。更快的清除特性以及被弱化的Fc使缺失铰链区的单克隆抗体成为治疗和诊断应用中一种有吸引力的解决方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e0b7/7709103/33a9bf5c2d80/antibodies-09-00050-g001.jpg

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去除铰链区：一种制备无效应器单克隆抗体的方法。

Taking the Hinge off: An Approach to Effector-Less Monoclonal Antibodies.

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