National Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, People's Republic of China.
J Struct Biol. 2010 Sep;171(3):309-17. doi: 10.1016/j.jsb.2010.05.009. Epub 2010 May 28.
Polygonatum cyrtonema lectin (PCL) is a novel anti-HIV mannose-binding lectin from Galanthus nivalis agglutinin (GNA)-related lectin family. Crystal structures of ligand-free PCL and its complexes with monomannoside and alpha1-3 dimannoside have been determined. The ligand-free PCL is dimeric, with both subunits adopt the beta-prism II fold. PCL subunit binds mannose using a potential bivalent mode instead of the usual trivalent mode, in which carbohydrate-binding site (CBS) I and CBS III adopt the conserved mannose-binding motif of QXDXNXVXY (X is one of any amino acid residues) as observed in other structurally characterized GNA-related lectins, while CBS II adopts a modified motif with residues Gln58 and Asp60, which are critical for mannose-binding, substituted by His58 and Asn60, respectively. As a result, CBS II is unfit for mannose-binding. In the mannoside complexes, ligand-bindings only occur at CBS I which provides the specificity for alpha1-3 dimannoside. CBS II and CBS III are cooperatively occupied by a well-ordered sulfate ion, through which the individual dimers are cross-linked to form a unique super-structure of 3(2) helical lattice. Surveying the sequences of GNA-related lectins revealed that the modified binding motif of CBS II is widely distributed in the Liliaceae family as an intrinsic structural element. There is evidence that other GNA-related lectins will also adopt the similar super-structure as PCL. Thus PCL structure, unique in ligand-binding mode, may represent a novel type of structure of GNA-related lectins. Comparative analyses indicated that the dimer-based super-structure may play a primary role in the anti-HIV property of PCL.
玉竹凝集素(PCL)是一种新型的抗 HIV 甘露糖结合凝集素,属于水仙凝集素(GNA)相关凝集素家族。已测定了无配体的 PCL 及其与单甘露糖和α1-3 二甘露糖复合物的晶体结构。无配体的 PCL 是二聚体,两个亚基均采用β-棱柱 II 折叠。PCL 亚基采用潜在的二价模式结合甘露糖,而不是通常的三价模式,在其他结构特征明确的 GNA 相关凝集素中,碳水化合物结合位点(CBS)I 和 CBS III 采用保守的甘露糖结合基序 QXDXNXVXY(X 是任何氨基酸残基之一),而 CBS II 采用带有残基 Gln58 和 Asp60 的修饰基序,这对于甘露糖结合至关重要,分别由 His58 和 Asn60 取代。因此,CBS II 不适合结合甘露糖。在甘露糖复合物中,配体结合仅发生在 CBS I 上,这为α1-3 二甘露糖提供了特异性。CBS II 和 CBS III 被有序的硫酸根离子共同占据,通过该离子将各个二聚体交联形成独特的 3(2)螺旋晶格超结构。对 GNA 相关凝集素的序列进行调查发现,修饰后的 CBS II 结合基序在百合科中广泛分布,是内在的结构元件。有证据表明,其他 GNA 相关凝集素也将采用与 PCL 相似的超结构。因此,PCL 在配体结合模式上的独特结构可能代表了 GNA 相关凝集素的一种新型结构。比较分析表明,基于二聚体的超结构可能在 PCL 的抗 HIV 特性中发挥主要作用。
