利用 NMR 和分子建模深入了解 DC-SIGN 对 Lewis(X)模拟物的分子识别。

Insights into molecular recognition of Lewis(X) mimics by DC-SIGN using NMR and molecular modelling.

机构信息

Glycosystems Laboratory, Instituto de Investigaciones Químicas, CSIC-US, AmericoVespucio, 49 41092 Sevilla, Spain.

出版信息

Org Biomol Chem. 2011 Oct 26;9(22):7705-12. doi: 10.1039/c1ob05938f. Epub 2011 Oct 10.

PMID:21984435

Abstract

In this work, we have studied in detail the binding of two α-fucosylamide-based mimics of Lewis(X) to DC-SIGN ECD (ECD = extracellular domain) using STD NMR and docking. We have concluded that the binding mode occurs mainly through the fucose moiety, in the same way as Lewis(X). Similarly to other mimics containing mannose or fucose previously studied, we have shown that both compounds bind to DC-SIGN ECD in a multimodal fashion. In this case, the main contact is the interaction of two hydroxyl groups one equatorial and the other one axial (O3 and O4) of the fucose with the Ca(2+) as Lewis(X) and similarly to mannose-containing mimics (in this case the interacting groups are both in the equatorial position). Finally, we have measured the K(D) of one mimic that was 0.4 mM. Competitive STD NMR experiments indicate that the aromatic moiety provides additional binding contacts that increase the affinity.

摘要

在这项工作中，我们使用 STD NMR 和对接技术详细研究了两种基于 α-岩藻糖酰胺的 Lewis(X)模拟物与 DC-SIGN ECD（ECD=细胞外域）的结合。我们得出结论，结合模式主要通过岩藻糖部分发生，与 Lewis(X)相同。与之前研究过的其他含有甘露糖或岩藻糖的模拟物类似，我们表明这两种化合物都以多模态方式与 DC-SIGN ECD 结合。在这种情况下，主要的接触是岩藻糖中一个赤道和另一个轴向（O3 和 O4）的两个羟基与 Ca(2+)的相互作用，就像 Lewis(X)一样，并且与含有甘露糖的模拟物类似（在这种情况下，相互作用的基团都处于赤道位置）。最后，我们测量了一个模拟物的 K(D)，为 0.4 mM。竞争性 STD NMR 实验表明，芳基部分提供了额外的结合接触，增加了亲和力。

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利用 NMR 和分子建模深入了解 DC-SIGN 对 Lewis(X)模拟物的分子识别。

Insights into molecular recognition of Lewis(X) mimics by DC-SIGN using NMR and molecular modelling.

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