糖基化树状聚合物囊泡和工程化人类凝集素与细胞的可编程糖展示反应，以展示细胞表面的糖功能。

Reaction of a Programmable Glycan Presentation of Glycodendrimersomes and Cells with Engineered Human Lectins To Show the Sugar Functionality of the Cell Surface.

机构信息

Institute of Pathology, Department of Applied Tumor Biology, Faculty of Medicine, Ruprecht-Karls-University Heidelberg, Im Neuenheimer Feld 224, 69120, Heidelberg, Germany.

Roy & Diana Vagelos Laboratories, Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania, 19104-6323, USA.

出版信息

Angew Chem Int Ed Engl. 2017 Nov 13;56(46):14677-14681. doi: 10.1002/anie.201708237. Epub 2017 Oct 10.

DOI:10.1002/anie.201708237

PMID:28940633

Abstract

Chemical and biological tools are harnessed to investigate the impact of spatial factors for functional pairing of human lectins with counterreceptors. The homodimeric adhesion/growth-regulatory galectin-1 and a set of covalently linked homo-oligomers from di- to tetramers serve as proof-of-principle test cases. Glycodendrimersomes provide a versatile and sensitive diagnostic platform to reveal thresholds for ligand density and protein concentration in aggregation assays (trans-activity), irrespective of linker length between lectin domains. Monitoring the affinity of cell binding and ensuing tumor growth inhibition reveal the linker length to be a bidirectional switch for cis-activity. The discovery that two aspects of lectin functionality (trans- versus cis-activity) respond non-uniformly to a structural change underscores the power of combining synthetic and biological tools to advance understanding of the sugar functionality of the cell surface.

摘要

化学和生物工具被用于研究空间因素对人类凝集素与相应受体功能配对的影响。同源二聚体粘附/生长调节半乳糖凝集素-1和一系列通过共价键连接的同型寡聚体从二聚体到四聚体被用作原理验证测试案例。糖基树突状聚合物提供了一种通用且敏感的诊断平台，可揭示聚集测定（转活性）中配体密度和蛋白质浓度的阈值，而与凝集素结构域之间的连接子长度无关。监测细胞结合的亲和力和随后的肿瘤生长抑制揭示了连接子长度是顺式活性的双向开关。这一发现表明，凝集素功能的两个方面（转活性与顺式活性）对结构变化的响应不均匀，这突显了结合合成和生物工具的力量，以推进对细胞表面糖功能的理解。

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糖基化树状聚合物囊泡和工程化人类凝集素与细胞的可编程糖展示反应，以展示细胞表面的糖功能。

Reaction of a Programmable Glycan Presentation of Glycodendrimersomes and Cells with Engineered Human Lectins To Show the Sugar Functionality of the Cell Surface.

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