寡糖构象空间在预结合状态下的重塑以提高凝集素结合亲和力。

Remodeling of the Oligosaccharide Conformational Space in the Prebound State To Improve Lectin-Binding Affinity.

机构信息

Exploratory Research Center on Life and Living Systems (ExCELLS), National Institutes of Natural Sciences, 5-1 Higashiyama, Myodaiji, Okazaki 444-8787, Japan.

Institute for Molecular Science, National Institutes of Natural Sciences, 5-1 Higashiyama, Myodaiji, Okazaki 444-8787, Japan.

出版信息

Biochemistry. 2020 Sep 1;59(34):3180-3185. doi: 10.1021/acs.biochem.9b00594. Epub 2019 Oct 5.

DOI:10.1021/acs.biochem.9b00594

PMID:31553574

Abstract

We developed an approach to improve the lectin-binding affinity of an oligosaccharide by remodeling its conformational space in the precomplexed state. To develop this approach, we used a Lewis X-containing oligosaccharide interacting with RSL as a model system. Using an experimentally validated molecular dynamics simulation, we designed a Lewis X analogue with an increased population of conformational species that were originally very minor but exclusively accessible to the target lectin without steric hindrance by modifying the nonreducing terminal galactose, which does not directly contact the lectin in the complex. This Lewis X mimetic showed 17 times higher affinity for the lectin than the native counterpart. Our approach, complementing the lectin-bound-state optimizations, offers an alternative strategy to create high-affinity oligosaccharides by increasing populations of on-pathway metastable conformers.

摘要

我们开发了一种方法，通过重塑预复合物状态下的构象空间来提高寡糖与凝集素的结合亲和力。为了开发这种方法，我们使用含有 Lewis X 的寡糖与 RSL 相互作用作为模型系统。使用经过实验验证的分子动力学模拟，我们设计了一种 Lewis X 类似物，通过修饰不与复合物中的凝集素直接接触的非还原端半乳糖，增加了构象物种的种群，这些构象物种原本非常少，但在没有空间位阻的情况下专门可用于靶标凝集素。这种 Lewis X 模拟物与天然对应物相比，对凝集素的亲和力高出 17 倍。我们的方法补充了结合状态的优化，为通过增加途径亚稳构象的种群来创建高亲和力寡糖提供了一种替代策略。

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Remodeling of the Oligosaccharide Conformational Space in the Prebound State To Improve Lectin-Binding Affinity.寡糖构象空间在预结合状态下的重塑以提高凝集素结合亲和力。

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寡糖构象空间在预结合状态下的重塑以提高凝集素结合亲和力。

Remodeling of the Oligosaccharide Conformational Space in the Prebound State To Improve Lectin-Binding Affinity.

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