Development of Enabling Methods for Natural Product and Medicinal Chemistry

天然产物和药物化学可行方法的开发

• 批准号: RGPIN-2014-04644
• 负责人: Britton, Robert
• 金额: $ 4.95万
• 依托单位: Simon Fraser University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=632744
• 关键词: Development; Enabling; Methods; Natural; Product

Over 50% of drugs approved by the FDA in the past 25 years are natural products or were inspired by a natural product lead in the therapeutic area. While the importance of natural products to human health is clear, oftentimes the limited amounts of material available from the natural source, or environmental concerns associated with harvesting the producing organism prevent their development into drugs. Additionally, the structural complexity of many naturally occurring compounds can further complicate their development. Thus, the full realization of natural product discoveries often relies on simultaneous breakthroughs in synthetic organic chemistry necessary to prepare useful quantities of these compounds in the laboratory, and explore the relationship between their structure and biological activity. Bearing this in mind, the long term goal of this Research Program is to address fundamental challenges in natural product and medicinal chemistry by focusing on the following discovery themes: i) new methods that can be applied to the rapid synthesis of 'privileged' molecular structures that are common to both natural products and pharmaceuticals; ii) directed synthesis of scarce natural products that have potentially useful biological activity; and iii) development of new fluorination reactions that can be exploited for the purpose of nuclear medicine. In particular, we plan to develop syntheses of eleutherobin and biselide A, two natural products that hold potential for the treatment of cancer, and two separate families of iminosugars and carbohydrate mimics that may enable future breakthroughs in the treatment of bacterial infections and Alzheimer's disease. In addition, we will investigate new reactions that replace hydrogen atoms in various organic molecules with fluorine. Ultimately, these fluorination reactions should lead to the discovery of improved radiotracers for positron emission tomography (PET) imaging of tumors. This Research Program should impact the practices of the wider community by providing enabling technologies and convenient methods for researchers engaged in natural products and drug discovery, and nuclear medicine. Through the downstream development of drugs and improved radiotracers for early detection of cancer, the anticipated outcomes of this research will have a significant and positive impact on the health of Canadians.

在过去的25年中，FDA批准的药物中有50%以上是天然产品或受治疗领域天然产品的启发。虽然天然产品对人类健康的重要性是显而易见的，但通常可从天然来源获得的材料的量有限，或者与收获生产生物体相关的环境问题阻止了它们开发成药物。此外，许多天然存在的化合物的结构复杂性可能使其开发更加复杂。因此，天然产物发现的充分实现通常依赖于合成有机化学的同时突破，这是在实验室中制备有用数量的这些化合物所必需的，并探索它们的结构和生物活性之间的关系。考虑到这一点，该研究计划的长期目标是通过关注以下发现主题来解决天然产物和药物化学中的基本挑战：i）可用于快速合成天然产物和药物共同的“特权”分子结构的新方法; ii）具有潜在有用生物活性的稀缺天然产物的定向合成;以及iii）开发可用于核医学目的的新的质子交换反应。特别是，我们计划开发eleutherobin和beselide A的合成，这两种天然产物具有治疗癌症的潜力，以及两个独立的亚氨基糖和碳水化合物模拟物家族，这可能使未来在治疗细菌感染和阿尔茨海默病方面取得突破。此外，我们将研究用氟取代各种有机分子中氢原子的新反应。最终，这些反应将导致发现改进的放射性示踪剂，用于肿瘤的正电子发射断层扫描（PET）成像。该研究计划应通过为从事天然产物和药物发现以及核医学的研究人员提供使能技术和方便方法，影响更广泛社区的实践。通过下游开发用于早期发现癌症的药物和改进的放射性示踪剂，这项研究的预期成果将对加拿大人的健康产生重大和积极的影响。