Nicotinic Receptor Template-guided Drug Design

烟碱受体模板指导的药物设计

• 批准号: 7093651
• 负责人: PALMER William TAYLOR
• 金额: $ 49.38万
• 依托单位: UNIVERSITY OF CALIFORNIA, SAN DIEGO
• 依托单位国家: 美国
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-09-30 至 2009-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7093651
• 关键词: Aplysia; binding proteins; chemical addition; combinatorial chemistry; cooperative study; drug addiction antagonist; drug design /synthesis /production; laboratory rat; mass spectrometry; nicotinic receptors; receptor binding; site directed mutagenesis; transfection

DESCRIPTION (provided by applicant): The proposed study has grown from a collaboration of the Sharpless & Taylor laboratories to employ novel "click chemistry" to develop selective ligands for nicotinic acetylcholine receptor using the acetylcholine binding protein as the reaction vessel. The precursors are anchored to two sites on the receptor and contain extended azide and acetylene moieties that react by cycloaddition to form a triazole. The precursor ligands have modest affinity for the protein and react extremely slowly in solution. On the protein surface, the apposition of the reactant groups and the amphiphilic environment of the protein forces a rapid reaction leading to formation of high affinity complex. Synthesis employs combinatorial reactants, and a single or predominant product is formed that is characterized by DIOS mass spectrometry. Interestingly, this "freezeframe" procedure catches the complex in unanticipated conformations such that the high affinity regioisomer forms from a low abundance conformation. Initially acetylcholine binding proteins from Lymnaea and Aplysia are employed as templates to form selective nicotinic agents. By mutagenesis the template is modified to incorporate binding determinants of the a7 receptor and then the heterologous receptor subtypes found in the brain. Since this is effectively a "freeze-frame" reaction, conformational flexibility of the binding templates will be analyzed by decay of fluorescence anisotropy in separate studies. Complexes also offer the potential for X-ray crystallographic studies. Partal agonists and antagonists will be generated from combinatorial libraries using nicotine, epibatidine or other heterocycles or bicyclic rings as the active center and peripheral site anchoring loci. Cycloaddition products will be examined for affinity and specificity for the respective binding templates. Their selectivities will then be examined on nicotinic receptors formed from transfected receptor subunit combinations. The final stages of investigation will include studies in rodents to determine efficacy and toxicity.

描述（由申请人提供）：拟议的研究由Sharpless和Taylor实验室合作发展而来，采用新颖的“点击化学”，以乙酰胆碱结合蛋白为反应容器，开发烟碱乙酰胆碱受体的选择性配体。前体固定在受体上的两个位点上，含有扩展的叠氮化物和乙炔基团，通过环加成反应形成三唑。前体配体对蛋白质有适度的亲和力，在溶液中反应极慢。在蛋白质表面，反应物基团的相对位置和蛋白质的两亲性环境迫使快速反应，形成高亲和复合物。合成采用组合反应物，形成单一的或主要的产物，用DIOS质谱法进行表征。有趣的是，这种“定格”程序捕获了意想不到的构象，例如高亲和区域异构体从低丰度构象形成。最初，从海藓和海藓中提取的乙酰胆碱结合蛋白被用作模板来形成选择性的尼古丁剂。通过诱变，模板被修改为结合a7受体的结合决定因子，然后是在大脑中发现的异源受体亚型。由于这实际上是一个“定格”反应，结合模板的构象灵活性将在单独的研究中通过荧光各向异性的衰减来分析。配合物也为x射线晶体学研究提供了潜力。部分激动剂和拮抗剂将利用尼古丁、依比替丁或其他杂环或双环作为活性中心和外周位点锚定位点的组合文库生成。将检查环加成产物对各自结合模板的亲和力和特异性。它们的选择性将在由转染的受体亚基组合形成的烟碱受体上进行检验。调查的最后阶段将包括对啮齿动物的研究，以确定其功效和毒性。