利用程序性细胞死亡受体 1(PD1)的固有可塑性来设计帕博利珠单抗 H3 环模拟物。
Exploiting the Innate Plasticity of the Programmed Cell Death-1 (PD1) Receptor to Design Pembrolizumab H3 Loop Mimics.
机构信息
Department of Chemistry and Biochemistry, Florida Atlantic University, Boca Raton, FL 33431, USA.
Miller School of Medicine, University of Miami, Miami, FL 33458, USA.
出版信息
Chembiochem. 2022 Nov 4;23(21):e202200449. doi: 10.1002/cbic.202200449. Epub 2022 Sep 27.
Abstract
Checkpoint blockade of the immunoreceptor programmed cell death-1 (PD1) with its ligand-1 (PDL1) by monoclonal antibodies such as pembrolizumab provided compelling clinical results in various cancer types, yet the molecular mechanism by which this drug blocks the PD1/PDL1 interface remains unclear. To address this question, we examined the conformational motion of PD1 associated with the binding of pembrolizumab. Our results revealed that the innate plasticity of both C'D and FG loops is crucial to form a deep binding groove (371 Å ) across several distant epitopes of PD1. This analysis ultimately provided a rational-design to create pembrolizumab H3 loop mimics [RDYRFDMGFD] into β-hairpin scaffolds. As a result, a 20-residue long β-hairpin peptide 1 e was identified as a first-in-class potent PD1-inhibitor (EC of 0.29 μM; K of 41 nM).
摘要
以 pembrolizumab 为代表的免疫受体程序性细胞死亡蛋白-1(PD1)与其配体-1(PDL1)的单克隆抗体阻断,在多种癌症类型中提供了令人信服的临床结果,但该药物阻断 PD1/PDL1 界面的分子机制尚不清楚。为了解决这个问题,我们研究了与 pembrolizumab 结合时 PD1 相关的构象运动。我们的结果表明,C'D 和 FG 环的固有可塑性对于形成跨越 PD1 几个远距离表位的深结合槽(371 Å)至关重要。该分析最终提供了一种合理的设计,将 pembrolizumab H3 环模拟物 [RDYRFDMGFD] 构建到 β-发夹支架中。结果,鉴定出一个 20 个残基长的 β-发夹肽 1e 是一种一流的有效 PD1 抑制剂(EC为 0.29 μM;K为 41 nM)。
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