Chemical Biology Tools for Probing and Discovering Glycan-Protein Interactions

用于探测和发现聚糖-蛋白质相互作用的化学生物学工具

• 批准号: RGPIN-2020-06748
• 负责人: Capicciotti, Chantelle
• 金额: $ 1.75万
• 依托单位: Queen's University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=741404
• 关键词: Chemical; Biology; Tools; Probing; Discovering

Cells of all living systems are surrounded by a "sugar coating" that is composed of carbohydrates covalently linked to proteins (called glycoproteins) or lipids (called glycolipids). The carbohydrates found on cell-surfaces, also called glycans, are crucial for normal physiology by mediating a range of important biological processes, and are also directly involved in every major disease. Through highly selective interactions with glycan-binding proteins, cell-surface glycans initiate or modulate specific functions in cells. While the importance of these interactions is well recognized, our current understanding of the glycan structures involved in these crucial binding events is limited. Indeed, research in carbohydrates and the glycosciences field significantly lags behind other biomolecules of life (proteins, lipids, nucleic acids). A major reason for this knowledge gap is that there is a limited availability of chemical tools to efficiently synthesize and study biologically relevant complex glycan structures. Our interdisciplinary research program will address these issues by developing innovative chemical biology tools and strategies that will be used to study and understand the mechanisms by which carbohydrates interact with proteins. This will be achieved through two main aims. We will develop efficient chemo-enzymatic strategies that will enable access to poorly understood, biologically relevant complex glycan structures that are needed to be able to study how these molecules interact with proteins. We will also develop new chemical tools to probe glycan-protein interactions, particularly in cell-based platforms as information on the cellular function of complex glycans is currently lacking. The resulting new chemical toolbox will benefit a broad range of researchers in the glycoscience field and will enable an improved understanding of how complex glycans interact with proteins and elicit functions in cells. Knowledge gained from this research program will allow us to answer fundamental questions at the interface of chemistry and biology in the rapidly progressing field of glycosciences. HQP trained in this program will be at the forefront of developing new chemical technologies that will progress the field into new directions and they will obtain a diverse interdisciplinary skill set with expertise in organic synthesis, biochemistry, molecular biology, enzymology, and chemical biology.

所有生命系统的细胞都被一层“糖衣”所包围，糖衣由共价连接蛋白质（称为糖蛋白）或脂质（称为糖脂）的碳水化合物组成。在细胞表面发现的碳水化合物，也称为聚糖，通过介导一系列重要的生物过程对正常生理至关重要，并且也直接参与每种主要疾病。通过与聚糖结合蛋白的高度选择性相互作用，细胞表面聚糖启动或调节细胞中的特定功能。虽然这些相互作用的重要性是公认的，但我们目前对参与这些关键结合事件的聚糖结构的理解是有限的。事实上，碳水化合物和糖科学领域的研究明显落后于生命的其他生物分子（蛋白质，脂质，核酸）。这种知识差距的一个主要原因是，有效合成和研究生物学相关的复杂聚糖结构的化学工具有限。我们的跨学科研究计划将通过开发创新的化学生物学工具和策略来解决这些问题，这些工具和策略将用于研究和了解碳水化合物与蛋白质相互作用的机制。这将通过两个主要目标来实现。我们将开发有效的化学-酶策略，使人们能够获得知之甚少的、生物学相关的复杂聚糖结构，这些结构是研究这些分子如何与蛋白质相互作用所必需的。我们还将开发新的化学工具来探测聚糖-蛋白质相互作用，特别是在基于细胞的平台上，因为目前缺乏关于复杂聚糖的细胞功能的信息。由此产生的新化学工具箱将使糖科学领域的广泛研究人员受益，并将使人们能够更好地了解复杂聚糖如何与蛋白质相互作用并在细胞中引发功能。从这项研究计划中获得的知识将使我们能够回答在糖科学快速发展领域的化学和生物学界面上的基本问题。HQP在这个程序中培训将是在开发新的化学技术，将进展到新的方向领域的最前沿，他们将获得一个多元化的跨学科的技能，在有机合成，生物化学，分子生物学，酶学和化学生物学的专业知识。