New approaches for the stereoselective synthesis of glycans of therapeutic interest

立体选择性合成具有治疗意义的聚糖的新方法

• 批准号: RGPIN-2016-04950
• 负责人: Gauthier, Charles
• 金额: $ 1.82万
• 依托单位: Institut national de la recherche scientifique
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=680945
• 关键词: New; approaches; stereoselective; synthesis; glycans

It is now recognized that carbohydrates and their conjugates are involved in a plethora of important biological processes such as the immune response and bacterial infections. Well-defined glycans are urgently needed for the in-depth understanding of these mechanisms as well as for the development of sugar-based medicines. In the last years, advances in chemical synthesis have made possible the preparation of complex glycans free from biological contaminants, some of which have been approved as therapeutics. However, carbohydrate chemists are still facing important challenges such as the need for non-traditional and eco-friendly synthetic routes as well as the lack of general procedures for the formation of glycosidic bonds. The long-term goal of our research program is to develop novel and straightforward synthetic approaches to access oligosaccharides and glycoconjugates of therapeutic interest. Our first research theme is to achieve the total synthesis of sponge-derived glycolipids of unique structural features following an innovative “programmed” glycosylation reaction. Found within marine sponges of the New Zealand coral reef, the pharmacological potential of these glycolipids has yet to be explored due to the scarcity of the natural source coupled with the tedious purification procedures. The glycolipids will be synthesized in a minimal number of steps based on the differential reactivity of sugars and evaluated in vitro for their biological activities (anticancer, antibiotic, immunostimulant). In a second research theme, novel glycosylation methodologies for the synthesis of bacterial sugars of atypical configurations will be developed and the reaction mechanisms studied. These methods will be applied to the preparation of biologically relevant glycans, such as heptosides and Kdo glycosides, found in the surface polysaccharides of human pathogenic bacteria. Burkholderia pseudomallei, a potential bioterrorism threat, Campylobacter jejuni, the world's leading cause of bacterial diarrhea, as well as Neisseria meningitidis, the causative agent of meningitis, are all expressing these sugars on their surface. Considered as virulence factors and protective antigens, the synthesis of heptosides and Kdo glycosides is still problematic for chemists. We thus propose to tackle this challenge by developing general and efficient synthetic routes to access them. By providing rapid and eco-friendly glycosylation methodologies, breaking with classical approaches, our work will help make accessible the synthesis of complex glycans by non-experts in the field. In addition to enhance the fundamental scientific knowledge in organic chemistry, the proposed research program could trigger the discovery of sugar-based medicines that could find applications to treat human diseases, to kill resistant pathogens and to develop novel adjuvants, diagnostics and vaccines.

现在人们认识到，碳水化合物及其缀合物参与了许多重要的生物过程，如免疫反应和细菌感染。为了深入了解这些机制以及开发糖基药物，迫切需要定义明确的聚糖。在过去的几年中，化学合成的进步已经使得制备不含生物污染物的复合聚糖成为可能，其中一些已经被批准作为治疗剂。然而，碳水化合物化学家仍然面临着重要的挑战，例如需要非传统和生态友好的合成路线，以及缺乏形成糖苷键的通用程序。我们研究计划的长期目标是开发新颖和直接的合成方法来获得具有治疗意义的寡糖和糖缀合物。我们的第一个研究主题是通过创新的“程序化”糖基化反应实现具有独特结构特征的海绵糖脂的全合成。在新西兰珊瑚礁的海绵中发现，这些糖脂的药理学潜力尚未被探索，因为天然来源稀缺，加上繁琐的纯化程序。糖脂将基于糖的不同反应性以最少的步骤合成，并在体外评价其生物活性（抗癌、抗生素、免疫刺激剂）。在第二个研究主题中，将开发用于合成非典型构型细菌糖的新型糖基化方法，并研究反应机理。这些方法将应用于制备生物学相关的聚糖，如在人类病原菌的表面多糖中发现的庚糖苷和Kdo糖苷。潜在的生物恐怖主义威胁类鼻疽伯克霍尔德氏菌、世界上细菌性腹泻的主要原因空肠弯曲杆菌以及脑膜炎的病原体脑膜炎奈瑟氏菌都在其表面表达这些糖。作为毒力因子和保护性抗原，庚糖苷和Kdo糖苷的合成仍然是化学家的难题。因此，我们建议通过开发通用和有效的合成途径来应对这一挑战。通过提供快速和环保的糖基化方法，打破传统方法，我们的工作将有助于使该领域的非专家合成复杂聚糖。除了增强有机化学的基础科学知识外，拟议的研究计划还可能引发糖基药物的发现，这些药物可用于治疗人类疾病，杀死耐药病原体，并开发新型佐剂，诊断和疫苗。