合成二价CD4模拟小蛋白比单价小蛋白表现出更强的抗HIV活性。

Synthetic bivalent CD4-mimetic miniproteins show enhanced anti-HIV activity over the monovalent miniprotein.

作者信息

Li Hengguang, Song Haijing, Heredia Alonso, Le Nhut, Redfield Robert, Lewis George K, Wang Lai-Xi

机构信息

Institute of Human Virology, University of Maryland Biotechnology Institute, University of Maryland, Baltimore 21201, USA.

出版信息

Bioconjug Chem. 2004 Jul-Aug;15(4):783-9. doi: 10.1021/bc049960r.

DOI:10.1021/bc049960r

PMID:15264865

Abstract

HIV-1 envelope glycoprotein gp120 is displayed as a trimeric complex on the surface of virion and infected T-cells, making it a typical multivalent target. This paper describes the design and synthesis of bivalent CD4-mimetic miniproteins to target the conserved CD4-binding pockets in the trimeric gp120. Using miniprotein CD4M9 as the model inhibitor, we created bivalent inhibitors in which two CD4M9 moieties were tethered by a spacer of varied length and evaluated their anti-HIV activity using a cell culture assay. The synthetic bivalent miniproteins showed 5-21-fold enhancement in anti-HIV activity over the monovalent miniprotein. The activity enhancement is dependent on the length of the spacer. The study suggests that targeting the oligomeric gp120 complex by novel multivalent ligands offers a valuable strategy for developing highly specific and effective HIV entry inhibitors.

摘要

HIV-1包膜糖蛋白gp120以三聚体复合物的形式展示在病毒体和受感染T细胞的表面，使其成为典型的多价靶点。本文描述了靶向三聚体gp120中保守的CD4结合口袋的二价CD4模拟微蛋白的设计与合成。以微蛋白CD4M9作为模型抑制剂，我们制备了二价抑制剂，其中两个CD4M9部分通过不同长度的间隔物连接，并使用细胞培养试验评估了它们的抗HIV活性。合成的二价微蛋白的抗HIV活性比单价微蛋白提高了5至21倍。活性增强取决于间隔物的长度。该研究表明，通过新型多价配体靶向寡聚gp120复合物为开发高度特异性和有效的HIV进入抑制剂提供了一种有价值的策略。

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合成二价CD4模拟小蛋白比单价小蛋白表现出更强的抗HIV活性。

Synthetic bivalent CD4-mimetic miniproteins show enhanced anti-HIV activity over the monovalent miniprotein.

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