Institute of Chemical Process Fundamentals of the CAS, v. v. i., Rozvojová 135, 16502 Praha 6, Czech Republic.
University of Chemistry and Technology Prague, Technická 5, 16628 Praha 6, Czech Republic.
J Org Chem. 2021 Apr 2;86(7):5073-5090. doi: 10.1021/acs.joc.0c03015. Epub 2021 Mar 11.
The Tn antigen (GalNAcα1-Thr/Ser) is abundantly expressed in many tumors but rarely found in healthy tissues, which makes it an attractive epitope for antitumor immunotherapy. The use of the Tn antigen in the development of therapeutic antitumor vaccines is hampered by its low immunogenicity, which may be enhanced by deoxyfluorination of the GalNAc moiety. Here, we report the synthesis of protected 3- and 4-fluoro analogues of the threonine-containing Tn antigen. As the stereoselective synthesis of α-linked fluorinated GalNAc is difficult, we prepared a panel of C3 and C4 deoxyfluorinated galactosazide thiodonors and evaluated their stereoselectivity in the glycosylation of carbohydrate acceptors and threonine derivatives. Glycosylation of threonine derivatives with -benzylated C4 fluoro donors gave only modest but usable α-selectivity of α/β = 2.5-3/1. The use of acyl and silyl protection at the 3- and 6-positions of the C4 fluoro donors did not enhance the selectivity. Installing a 4,6-di--butylsilylene-protecting group in C3 fluoro donors resulted in exclusive α-selectivity and reaffirmed the strong α-directing effect of this protective group in glycosylation with galacto-configured glycosyl donors.
Tn 抗原(GalNAcα1-Thr/Ser)在许多肿瘤中大量表达,但在健康组织中很少发现,这使其成为抗肿瘤免疫治疗的一个有吸引力的表位。由于 Tn 抗原的免疫原性较低,其在治疗性抗肿瘤疫苗开发中的应用受到阻碍,而 GalNAc 部分的脱氧氟化可能增强其免疫原性。在这里,我们报告了含苏氨酸的 Tn 抗原的 3-和 4-氟保护类似物的合成。由于 α-连接的氟化 GalNAc 的立体选择性合成具有挑战性,因此我们制备了一系列 C3 和 C4 去氧氟化半乳糖氮化物硫代供体,并评估了它们在糖基化碳水化合物受体和苏氨酸衍生物中的立体选择性。用 -苯甲酰基 C4 氟供体对苏氨酸衍生物进行糖苷化反应,仅得到中等但可用的α-选择性(α/β=2.5-3/1)。在 C4 氟供体的 3-和 6-位上安装酰基和硅基保护基并没有提高选择性。在 C3 氟供体中安装 4,6-二--丁基硅烯保护基可得到专一的 α-选择性,并再次证实了该保护基在与半乳糖构型的糖基供体进行糖苷化反应中的强α-导向作用。
