Department of Chemistry, Chemical Biology, University of Copenhagen, Thorvaldsensvej 40, 1871, Frederiksberg C, Denmark.
Chemistry. 2017 Jul 18;23(40):9472-9476. doi: 10.1002/chem.201702104. Epub 2017 Jun 22.
The glycocalyx cover membrane surfaces of all living cells. These complex architectures render their interaction mechanisms on the membrane surface difficult to study. Artificial cell-sized membranes with selected and defined glycosylation patterns may serve as a minimalistic approach to systematically study cell surface glycan interactions. The development of a facile general synthetic procedure for the synthesis of BODIPY-labeled cholesterylated glycopeptides, which can coat cell-size giant unilamellar vesicles (GUVs), is described. These peptide constructs were synthesized by: 1) solid-phase peptide synthesis (SPPS) using cholesterylated Fmoc-amino acids (Fmoc=9-fluorenylmethoxycarbonyl) followed by tandem click reactions, 2) attachment of a BODIPY-bicyclononyne (BCN) (prepared by Mitsunobu chemistry via novel aryl BCN-ethers) in the absence of a catalyst, and 3) glycosylation by means of copper(I)-catalyzed click reaction of an azidoglycan. Seven different GUV-glycoforms were prepared and four of these were evaluated with their corresponding four specific anti-glycan binding lectins.
糖萼覆盖所有活细胞的膜表面。这些复杂的结构使得它们在膜表面的相互作用机制难以研究。具有选定和定义的糖基化模式的人工细胞大小的膜可以作为系统研究细胞表面聚糖相互作用的简化方法。本文描述了一种简便的通用合成方法,用于合成 BODIPY 标记的胆固醇化糖肽,这些糖肽可以包被细胞大小的巨大单层囊泡(GUV)。这些肽结构通过以下步骤合成:1)使用胆固醇化 Fmoc-氨基酸(Fmoc=9-芴甲氧羰基)进行固相肽合成(SPPS),然后进行串联点击反应,2)在没有催化剂的情况下,将 BODIPY-双环壬炔(BCN)(通过 Mitsunobu 化学通过新型芳基 BCN-醚制备)连接到肽上,3)通过铜(I)-催化的点击反应进行糖基化,使用叠氮聚糖。制备了七种不同的 GUV-糖型,并对其中四种与相应的四种特定抗聚糖结合凝集素进行了评估。
