Psychostimulant Recognition by Serotonin Transporters

血清素转运蛋白对精神兴奋剂的识别

• 批准号: 7576781
• 负责人: ERIC L BARKER
• 金额: $ 20.85万
• 依托单位: PURDUE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-09-01 至 2011-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7576781
• 关键词: Address; Amino Acids; Amphetamines; Antidepressive Agents; Attention; Binding; Biogenic Amines; Biological Assay; Brain; Carrier Proteins; Cellular Neurobiology; Clinical; Cloning; Cocaine; Computer Assisted; Coupled; Cysteine; Drug Modulation; Electrophysiology (science); Fluoxetine; Health; Imipramine; Knowledge; Ligands; Literature; Longevity; Mammalian Cell; Methamphetamine; Methods; Molecular; Molecular Mechanisms of Action; Molecular Target; Mutagenesis; Neurotransmitters; Paroxetine; Pathway interactions; Pharmaceutical Preparations; Pharmacology; Process; Property; Recombinants; Role; Serotonin; Site-Directed Mutagenesis; Structure; Substrate Domain; Techniques; Testing; Therapeutic; Time; Transmembrane Domain; Work; base; combat; drug of abuse; ecstasy; extracellular; inhibitor/antagonist; interdisciplinary approach; link protein; molecular transporter; neurotoxic; neurotoxicity; protein structure; psychostimulant; serotonin transporter; social; stimulant abuse; uptake

The broad long-term objectives of this proposal are to identify the molecular determinants of psychostimulant recognition (cocaine and amphetamine) by serotonin transporters (SERTs), thereby revealing fundamental mechanisms involved SERT function and modulation by drugs. This project has direct health relatedness as SERTs are the molecular target for.most antidepressant drugs as well as many drugs of abuse. Antidepressants such as paroxetine, fluoxetine, and imipramine bind to the transporter and inhibit serotonin uptake, thereby prolonging the extracellular lifespan of the neurotransmitter. The abused psychostimulants cocaine and amphetamine also bind to the transporter, but have distinct pharmacologic effects leading to abuse potential and possible neurotoxicity. Despite the cloning of SERT in the early 1990's, the molecular and cellular neurobiology surrounding the function of this transport protein remains to be fully elucidated. This project uses a multidisciplinary approach aimed at significantly advancing knowledge regarding the molecular pharmacology of psychostimulants at SERTs. The studies will use multiple techniques including expression and characterization of recombinant transporters in mammalian cells, the substituted cysteine accessibility method (SCAM), real-time fluorescent substrate assays, electrophysiology, and site-directed mutagenesis to identify amino acids involved with specific transporter functions including antagonist and substrate binding. In addition, computer-assisted structure-activity studies of cocaine and amphetamine derivatives will be coupled with mutagenesis in an attempt to identify direct ligand-transporter interactions. Therefore, the specific aims of this project are: 1) To determine the core domains forming the substrate permeation pathway, 2) To elucidate information about the orientation of SERT domains, and 3) To identify and elucidate the role of amino acids in the core domains involved with recognition of psychostimulants. The proposed strategies will provide critical new information linking protein structure to functional properties of the transporter and an enhanced understanding of the molecular mechanisms of action for psychotherapeutic and abused drugs. Abused stimulants such as cocaine and amphetamine (including methamphetamine ("Meth") and MDMA or 'ecstasy') are of great societal concern. The proposed studies will reveal important new information on how these abused drugs alter their target in the brain (i.e., the serotonin transporter) and offer new strategies to combat the addictive properties of these substances.

这项提案的长期目标是确定精神刺激剂的分子决定因素。 5-羟色胺转运体(SERTS)识别(可卡因和苯丙胺)，从而揭示基本 其机制涉及SERT功能和药物的调节作用。该项目与健康有直接关系，因为 SERTS是大多数抗抑郁药物以及许多滥用药物的分子靶标。 抗抑郁药如帕罗西汀、氟西汀和丙咪嗪与转运体结合并抑制5-羟色胺 摄取，从而延长神经递质的细胞外寿命。滥用精神刺激剂 可卡因和安非他明也与转运蛋白结合，但具有不同的药理作用，导致 可能的滥用和可能的神经毒性。尽管在20世纪90年代初S就克隆了SERT，但分子 围绕该转运蛋白功能的细胞神经生物学仍有待充分阐明。 该项目使用多学科方法，旨在显著提高有关 SERTS精神刺激剂的分子药理学。这些研究将使用多种技术，包括 重组半胱氨酸转运蛋白在哺乳动物细胞中的表达与鉴定 可及性方法(SCAM)、实时荧光底物分析、电生理学和现场定向 突变鉴定涉及特定转运蛋白功能的氨基酸，包括拮抗剂和 底物结合。此外，计算机辅助的可卡因和苯丙胺的构效关系研究 衍生物将与诱变相结合，试图确定直接的配体-转运体相互作用。 因此，本项目的具体目标是：1)确定形成衬底的核心域 渗透途径，2)阐明SERT结构域的方向信息，3)鉴定 并阐明了氨基酸在与识别精神刺激剂有关的核心区域中的作用。这个 建议的策略将提供关键的新信息，将蛋白质结构与蛋白质的功能特性联系起来 转运蛋白和对分子作用机制的进一步了解 心理治疗和滥用药物。 滥用兴奋剂，如可卡因和安非他明(包括甲基苯丙胺)和亚甲二氧基安非他明或 (“摇头丸”)引起了极大的社会关注。拟议的研究将揭示重要的新信息： 这些滥用药物改变了它们在大脑中的目标(即5-羟色胺转运体)，并提供了新的策略来 与这些物质的成瘾特性作斗争。