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促甲状腺激素受体单克隆抗体可变区结构提供了对其反向激动剂活性潜在机制的深入了解。

Structure of a Thyrotropin Receptor Monoclonal Antibody Variable Region Provides Insight into Potential Mechanisms for its Inverse Agonist Activity.

机构信息

1 Thyroid Autoimmune Disease Unit, Department of Medicine, Cedars-Sinai Medical Center and UCLA School of Medicine , Los Angeles, California.

2 Department of Biomedical Sciences, Research Division of Immunology, Cedars-Sinai Medical Center and UCLA School of Medicine , Los Angeles, California.

出版信息

Thyroid. 2018 Jul;28(7):933-940. doi: 10.1089/thy.2018.0176. Epub 2018 Jun 29.

DOI:10.1089/thy.2018.0176
PMID:29845889
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6043401/
Abstract

BACKGROUND

The high constitutive, or ligand-independent, activity of the thyrotropin receptor (TSHR) is of clinical importance in some thyroid conditions, particularly well-differentiated thyroid carcinoma remnants following incomplete ablative therapy (surgery and radioiodine). Under these conditions, even total suppression of TSH by thyroid hormone administration does not fully reduce TSHR activity, a driver of thyrocyte growth.

METHODS

CS-17 is a murine monoclonal antibody that has inverse agonist activity in that it suppresses TSHR constitutive activity. This study crystallized the CS-17 Fab and determined its atomic structure at a resolution of 3.4 Å.

RESULTS

In silico docking of this structure to that of the TSHR extracellular domain was accomplished by targeting to TSHR residue tyrosine 195 (Y195) known to contribute to the CS-17 epitope. High affinity interaction between these two molecules, primarily by the CS-17 immunoglobulin heavy chain, was validated by energetic analysis (K of 8.7 × 10 M), as well as by previously obtained data on a number of individual TSHR amino acids in three regions whose mutagenesis reduced CS-17 binding as detected by flow cytometry.

CONCLUSIONS

Structural insight at atomic resolution of a TSHR antibody with inverse agonist activity opens the way for the development of a molecule with therapeutic potential, particularly in thyroid carcinoma. For this purpose, CS-17 will require "humanization" by substitution of its constant region (Fc component). In addition, with its epitope defined, the CS-17 affinity can be increased further by mutagenesis of selected amino acids in its heavy- and light-chain complementarity determining regions.

摘要

背景

促甲状腺激素受体(TSHR)的高组成型或配体非依赖性活性在某些甲状腺疾病中具有临床意义,特别是在不完全消融治疗(手术和放射性碘)后残留的分化良好的甲状腺癌。在这些情况下,即使通过甲状腺激素给药完全抑制 TSH,也不能完全降低 TSHR 活性,这是甲状腺细胞生长的驱动因素。

方法

CS-17 是一种鼠单克隆抗体,具有反向激动剂活性,因为它抑制 TSHR 的组成型活性。本研究结晶了 CS-17 Fab,并确定了其原子结构,分辨率为 3.4 Å。

结果

通过针对已知有助于 CS-17 表位的 TSHR 残基酪氨酸 195(Y195)进行靶向,将该结构在计算机上对接至 TSHR 细胞外结构域。这两种分子之间的高亲和力相互作用,主要通过 CS-17 免疫球蛋白重链实现,通过能量分析(K 值为 8.7×10^-5 M)以及先前获得的关于三个区域中多个 TSHR 氨基酸的数据得到验证,这些区域的突变减少了通过流式细胞术检测到的 CS-17 结合。

结论

具有反向激动剂活性的 TSHR 抗体的原子分辨率结构见解为开发具有治疗潜力的分子开辟了道路,特别是在甲状腺癌中。为此,CS-17 将需要通过取代其恒定区(Fc 成分)进行“人源化”。此外,由于其表位已定义,通过对其重链和轻链互补决定区中的选定氨基酸进行诱变,可以进一步提高 CS-17 的亲和力。