Grube Maurice, Lee Bo-Young, Garg Monika, Michel Dana, Vilotijević Ivan, Malik Ankita, Seeberger Peter H, Varón Silva Daniel
Biomolecular Systems Department, Max-Planck-Institute of Colloids and Interfaces, Am Mühlenberg 1, 14476, Potsdam, Germany.
Department of Biology, Chemistry and Pharmacy, Free University Berlin, Arnimallee 22, 14195, Berlin, Germany.
Chemistry. 2018 Mar 2;24(13):3271-3282. doi: 10.1002/chem.201705511. Epub 2018 Feb 1.
Trypanosoma brucei uses variant surface glycoproteins (VSGs) to evade the host immune system and ensure parasitic longevity in animals and humans. VSGs are attached to the cell membrane by complex glycosylphosphatidylinositol anchors (GPI). Distinguishing structural feature of VSG GPIs are multiple α- and β-galactosides attached to the conserved GPI core structure. T. brucei GPIs have been associated with macrophage activation and alleviation of parasitemia during infection, acting as disease onset delaying antigens. Literature reports that link structural modifications in the GPIs to changes in biological activity are contradictory. We have established a synthetic route to prepare structurally overlapping GPI derivatives bearing different T. brucei characteristic structural modifications. The GPI collection will be used to assess the effect of galactosylation and phosphorylation on T. brucei GPI immunomodulatory activity, and to perform an epitope mapping of this complex glycolipid as potential diagnostic marker for Trypanosomiasis. A strategy for the synthesis of a complete α-tetragalactoside using the 2-naphthylmethyl protecting group and for subsequent attachment of GPI fragments to peptides is presented.
布氏锥虫利用可变表面糖蛋白(VSG)来逃避宿主免疫系统,并确保其在动物和人类体内的寄生寿命。VSG通过复杂的糖基磷脂酰肌醇锚定(GPI)附着在细胞膜上。VSG GPI的显著结构特征是多个α-和β-半乳糖苷连接到保守的GPI核心结构上。布氏锥虫GPI与感染期间巨噬细胞的激活和寄生虫血症的减轻有关,作为疾病发作延迟抗原起作用。将GPI结构修饰与生物活性变化联系起来的文献报道相互矛盾。我们已经建立了一条合成路线,用于制备带有不同布氏锥虫特征性结构修饰的结构重叠GPI衍生物。该GPI库将用于评估半乳糖基化和磷酸化对布氏锥虫GPI免疫调节活性的影响,并对这种复杂糖脂进行表位作图,作为锥虫病的潜在诊断标志物。本文介绍了一种使用2-萘甲基保护基合成完整α-四半乳糖苷以及随后将GPI片段连接到肽上的策略。
