As a dendritic cell-specific C-type lectin receptor, DC-SIGN plays an important role in the early stages of many viral infections, including HIV and Ebola, making it an interesting therapeutic target. It has been foun...As a dendritic cell-specific C-type lectin receptor, DC-SIGN plays an important role in the early stages of many viral infections, including HIV and Ebola, making it an interesting therapeutic target. It has been found that DC-SIGN can recognize both highly mannosylated and branched fucosylated oligosaccharides. Herein, we synthesized a new series of homo-and Man-Fuc heteroglycoclusters with diverse structures. The binding properties of these compounds to tetrameric extracellular DC-SIGN were assessed by surface plasmon resonance(SPR). Heteroglycocluster 17 b showed high DC-SIGN-binding activity(K;= 2.6 μM). The structural determinants of this high affinity of 17 b were rationalized by docking and compared with its much less potent isomer 17 a. Therefore, 17 b might serve as a base for the development of potent inhibitors of DC-SIGN-dependent viral infection.展开更多
基金National Natural Science Foundation of China(NSFC,Grant No.21172015)Wellcome Trust (UK,Grant No.097354/Z/11/Z)+1 种基金ML acknowledges the Research Project RVO61388963 of the Institute of Organic Chemistry and BiochemistryAcademy of Sciences of the Czech Republic,the Czech Science Foundation (Grant No.P20 8/12/G016)。
文摘As a dendritic cell-specific C-type lectin receptor, DC-SIGN plays an important role in the early stages of many viral infections, including HIV and Ebola, making it an interesting therapeutic target. It has been found that DC-SIGN can recognize both highly mannosylated and branched fucosylated oligosaccharides. Herein, we synthesized a new series of homo-and Man-Fuc heteroglycoclusters with diverse structures. The binding properties of these compounds to tetrameric extracellular DC-SIGN were assessed by surface plasmon resonance(SPR). Heteroglycocluster 17 b showed high DC-SIGN-binding activity(K;= 2.6 μM). The structural determinants of this high affinity of 17 b were rationalized by docking and compared with its much less potent isomer 17 a. Therefore, 17 b might serve as a base for the development of potent inhibitors of DC-SIGN-dependent viral infection.
