Discovery of potent and selective neuropeptide Y Y2 receptor antagonist probes

发现有效且选择性的神经肽 Y Y2 受体拮抗剂探针

• 批准号: 7767500
• 负责人: Thomas D Bannister
• 金额: $ 90.71万
• 依托单位: SCRIPPS RESEARCH INSTITUTE, THE
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-04-10 至 2014-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7767500
• 关键词: Affinity; Alcohol dependence; Alcoholism; Alcohols; Biological Assay; Cells; Chemicals; Clinical; Data; Dependence; Development; Disease; Evaluation; Extramural Activities; Goals; Health; In Vitro; Laboratories; Ligands; Medical; Pharmaceutical Chemistry; Pharmacology; Pharmacotherapy; Play; Process; Program Development; Property; Rattus; Reliance; Research; Role; Self Administration; Site; Societies; Source; Staging; Therapeutic; Therapeutic Agents; Translational Research; Validation; Work; addiction; alcohol research; animal efficacy; base; counterscreen; design; drug discovery; efficacy testing; experience; high throughput screening; in vivo; neuropeptide Y; neuropeptide Y2 receptor; novel; pre-clinical; public health relevance; receptor; socioeconomics; tool

DESCRIPTION (provided by applicant): The overall and specific goal of this application is the identification of novel high affinity and selective functional antagonists of the neuropeptide Y Y2 receptor subtype. We aim to identify, design and synthesize novel, potent, and selective Y2R antagonists as tools for research on alcohol dependence with potential as clinically effective therapeutic agents. We aim to achieve this goal via medicinal chemistry design based on existing Y2R ligands that are available or have been obtained in our high throughput screening efforts. The disease target, alcohol addiction and dependence, represents an enormous health burden on society and for which currently available pharmacotherapies have insufficient efficacy. We propose Y2R antagonism as a mechanism to achieve the therapeutic objective. While no clinical validation exists for the mechanism, the hypothesis supported by preclinical data from multiple sources. A translational research team composed of medicinal chemists, computational chemists, cell biologists, pharmacologists, and physiologists with extensive drug discovery experience is prepared to execute a molecule development program centered on the design, synthesis and evaluation of agents for that can be used in alcohol dependence research based on their actions at the NPY Y2 receptor. Compounds will be developed in an iterative cycle of ligand evaluation and re-design. Medicinal chemistry efforts will focus on development of new and better compounds. The in vitro pharmacology of novel compounds will be assessed in multiple cell-based assays and will include NPY receptor counterscreens to routinely determine potency and selectivity at a very early stage. DMPK properties of leads will be determined both in vitro and in vivo throughout the process as well. Additional in vivo assessments of compound activity on alcohol dependence, including a validated test for efficacy assessment in reducing alcohol self-administration in rats, will be performed in the NIH/NIAAA laboratory of Dr. Markus Heilig. All other work will be performed at extramural sites. Unique aspects of our approach include an early reliance upon selectivity data, DMPK information, and early animal efficacy studies. PUBLIC HEALTH RELEVANCE: Alcoholism, an enormous health burden in the USA and worldwide, is one of the most imposing medical and socioeconomic concerns for our society. The Neuropeptide Y Y2 receptor is thought to play a role in alcohol dependence and addiction. Our goal is to generate a novel chemical entity to be used in alcohol research and with the potential of unraveling Y2R contributions to alcoholism.

描述（由申请人提供）：本申请的总体和具体目标是鉴定神经肽YY 2受体亚型的新型高亲和力和选择性功能性拮抗剂。我们的目标是识别，设计和合成新的，有效的，和选择性的Y2 R拮抗剂作为研究酒精依赖的工具，具有潜在的临床有效的治疗药物。我们的目标是通过基于现有Y2 R配体的药物化学设计来实现这一目标，这些配体是可用的或已经在我们的高通量筛选工作中获得。酒精成瘾和依赖这一疾病目标对社会造成了巨大的健康负担，目前可用的药物疗法对其疗效不足。我们提出Y2 R拮抗作用作为实现治疗目标的机制。虽然该机制没有临床验证，但该假设得到了来自多个来源的临床前数据的支持。 一个由药物化学家，计算化学家，细胞生物学家，药理学家和生理学家组成的翻译研究团队，具有丰富的药物发现经验，准备执行一个分子开发计划，该计划以药物的设计，合成和评估为中心，可用于酒精依赖研究，基于它们在NPY Y2受体的作用。化合物将在配体评估和重新设计的迭代循环中开发。药物化学的努力将集中在开发新的和更好的化合物。新化合物的体外药理学将在多个基于细胞的试验中进行评估，并将包括NPY受体反筛选，以在非常早期的阶段常规确定效力和选择性。在整个过程中，还将在体外和体内确定电极导线的DMPK特性。将在Dr. Markus Heilig的NIH/NIAAA实验室进行化合物对酒精依赖活性的额外体内评估，包括用于评估大鼠减少酒精自我给药的有效性的经验证试验。所有其他工作将在校外进行。我们方法的独特之处包括早期依赖选择性数据、DMPK信息和早期动物疗效研究。 公共卫生相关性：酒精中毒是美国和全世界的一个巨大的健康负担，是我们社会最令人担忧的医疗和社会经济问题之一。神经肽Y Y2受体被认为在酒精依赖和成瘾中起作用。我们的目标是产生一种新的化学实体，用于酒精研究，并有可能解开Y2 R对酒精中毒的贡献。