New Methods for Nitrogen Heterocycle Synthesis

氮杂环合成新方法

• 批准号: 7714782
• 负责人: Sherry R Chemler
• 金额: $ 5.01万
• 依托单位: STATE UNIVERSITY OF NEW YORK AT BUFFALO
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-07-01 至 2011-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7714782
• 关键词: Acquired Immunodeficiency Syndrome; Alkenes; Alzheimer' s Disease; Amines; Anticonvulsants; Anxiety; Aporphines; Azepines; Biological; Chemicals; Chemistry; Communities; Copper; Development; Diamines; Dopamine Antagonists; Due Process; Hypertension; Indoles; Isoquinolines; Ligands; Malaria; Metals; Methods; NMDA receptor antagonist; Nitrogen; Organic Chemistry; Peptide Hydrolases; Peptides; Pharmaceutical Chemistry; Process; Protease Inhibitor; Protocols documentation; Pyrrolidines; Reaction; Rosa; Scheme; Structure; Technology; Therapeutic Agents; Toxic effect; Transition Elements; anticancer activity; antitumor agent; base; carboxylate; cost; depression; design; drug discovery; empowered; improved; microwave electromagnetic radiation; mood regulation; new technology; novel; programs; pyrrolidine; small molecule; small molecule libraries

DESCRIPTION (provided by applicant): Nitrogen heterocycles are found in a large proportion of biologically active molecules. Chemical methods that enable the concise, selective and efficient de novo synthesis of nitrogen heterocycles empower the scientific community to gain access to known biologically active small molecules as well as provide an opportunity to create as yet unknown compounds with potential biological activity, which may be discovered through medicinal chemistry studies. The discovery, development and application of two new nitrogen heterocycle forming reactions, the intramolecular carboamination and diamination of olefins, are presented in this proposal. These reactions are enabled by novel copper(ll) chemistry discovered in our labs. Copper is an especially attractive transition metal to use in reaction processes due to its low cost and relatively low toxicity. Modern organic chemistry methods such as asymmetric synthesis and transition metal ligand design as well as technologies such as microwave reaction promotion are used to facilitate these studies. The full mechanistic understanding and synthetic application of these methods may inspire the development of other new methods and the design of small molecule libraries for biological studies. The optically enriched nitrogen heterocycles accessible through these transformations, hexahydro-1 H-benz[f]indoles, isoquinolines, pyrrolidines, vicinal diamines and potentially aporphines and azepines demonstrate a broad range of biological activity such as 1) dopamine antagonists, important in mood regulation conditions such as anxiety and depression, 2) anticancer activity and 3) protease inhibitory activity, important in the treatment of AIDS, Alzheimer's disease, hypertension and Malaria. In particular, the intramolecular diamination reaction provides a concise and unique access to compounds that may be useful as peptide isosteres. The study and development of novel methods for the concise synthesis of optically active small molecule nitrogen heterocycles is presented. Nitrogen heterocycles are found in a large proportion of biologically active molecules. The optically enriched nitrogen heterocycles accessible through these transformations demonstrate a broad range of biological activity such as 1) dopamine antagonists, important in mood regulation conditions such as anxiety and depression, 2) anticancer activity and 3) protease inhibitory activity, important in the treatment of AIDS, Alzheimer's disease, hypertension and Malaria.

描述（由申请人提供）：氮杂环存在于大部分生物活性分子中。化学方法使氮杂环的简明，选择性和高效的从头合成能够使科学界获得已知的生物活性小分子，并提供了一个机会来创造具有潜在生物活性的未知化合物，这些化合物可能通过药物化学研究发现。本文介绍了分子内碳胺化和烯烃二胺化两种新的氮杂环形成反应的发现、发展和应用。这些反应是由我们实验室发现的新型铜（ll）化学物质实现的。铜是一种特别有吸引力的过渡金属，用于反应过程中，由于其成本低，毒性相对较低。现代有机化学方法如不对称合成和过渡金属配体设计以及微波反应促进等技术为这些研究提供了便利。这些方法的全面机制理解和综合应用，可能会启发其他新方法的发展和生物学研究小分子文库的设计。光学富集的氮杂环可通过这些转化，六氢-1 h -苯[f]吲哚，异喹啉，吡啶，邻苯二胺和潜在的阿啡和氮卓类显示出广泛的生物活性，如1)多巴胺拮抗剂，在焦虑和抑郁等情绪调节条件中重要，2)抗癌活性和3)蛋白酶抑制活性，在艾滋病，阿尔茨海默病，高血压和疟疾的治疗中重要。特别是，分子内二化反应提供了一个简洁和独特的途径，可能是有用的肽同位异构体的化合物。介绍了光学活性小分子氮杂环简明合成新方法的研究进展。氮杂环存在于很大比例的生物活性分子中。通过这些转化获得的光学富集氮杂环具有广泛的生物活性，如1)多巴胺拮抗剂，在焦虑和抑郁等情绪调节条件中很重要；2)抗癌活性；3)蛋白酶抑制活性，在治疗艾滋病、阿尔茨海默病、高血压和疟疾中很重要。