Ethanol actions on ion channels in the extended amygdala

乙醇对扩展杏仁核离子通道的作用

• 批准号: 8702058
• 负责人: Scott D. Moore
• 金额: $ 12.45万
• 依托单位: DUKE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-09-05 至 2016-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8702058
• 关键词: Acute; Address; Affect; Alcohol abuse; Alcohol consumption; Alcohol dependence; Alcohol withdrawal syndrome; Alcohols; Amygdaloid structure; Anti-Anxiety Agents; Anxiety; Anxiety Disorders; Area; Behavioral; Biological; Brain; Brain region; Calcium; Cell Nucleus; Chronic; Chronic Disease; Code; Development; Diagnosis; Esthesia; Ethanol; Ethanol dependence; Exhibits; Exposure to; Family; Gene Expression; Gene Targeting; Heavy Drinking; In Vitro; Individual; Intervention; Ion Channel; Knockout Mice; Laboratories; Lead; Measures; Mediating; Modeling; Neurons; Outcome; Pharmaceutical Preparations; Physiological; Physiology; Potassium Channel; Process; Property; Regulation; Research Institute; Risk; Role; Site; Synapses; System; Techniques; Therapeutic; Withdrawal; adeno-associated viral vector; alcohol craving; alcohol effect; alcohol exposure; alcohol sensitivity; alcoholism therapy; base; behavioral tolerance; clinically relevant; genetic manipulation; in vivo; interest; large-conductance calcium-activated potassium channels; neuronal excitability; neurotransmitter release; novel; presynaptic; research study; small hairpin RNA; voltage

DESCRIPTION (provided by applicant): A significant component of the reinforcing properties of ethanol may be its pronounced anxiolytic effect, and individuals with clinically diagnosed anxiety disorders are at greatly increased risk for ethanol abuse and dependence. With prolonged use, withdrawal from ethanol is associated with increased anxiety, in addition to the sensation of ethanol craving. This is believed to lead to a cycle of continued ethanol use. We are beginning to understand the biological basis of these processes, and this application is targeted toward continued exploration of the mechanisms of ethanol-induced anxiolysis and withdrawal-induced anxiogenesis. INIA West has identified target genes comprised of families coding for neuronal potassium channels. We are particularly interested in a large conductance voltage- and calcium- regulated current, the BK current. Previous behavioral studies indicate that these ion channels are highly sensitive to low concentrations of ethanol, and anatomical studies demonstrate that they are heavily expressed in the central amygdala nucleus (CeA). The amygdala formation has a critical role in the action of anxiolytic drugs such as ethanol, and may be the most appropriate brain area for investigating the mechanisms of ethanol's regulation of anxiety. Thus, we believe that alterations in these channels in the amygdala may affect EtOH-mediated anxiolysis and withdrawal-induced anxiogenesis. Studies done in the laboratory of our primary proposed collaborator, Dr. Candice Contet (Scripps Research Institute) indicate that chronic ethanol exposure using the chronic intermittent ethanol model regulate gene expression of subunits of the BK channel in the amygdala. These important groundwork studies have been based on behavioral experiments, and it is now appropriate to carry out mechanistic studies at the cellular level that address interactions between ethanol and BK channels in the extended amygdala. Therefore, we propose to use pharmacologic and genetic manipulations to characterize the specific contribution of these channels to the action of ethanol on neuronal excitability in the CeA. Ultimately, a better understanding of alcohol-induced alterations in these ion channels systems in the CeA could facilitate development of novel therapies for treatment of alcoholism.

描述（由申请人提供）：乙醇增强特性的一个重要组成部分可能是其显著的抗焦虑作用，临床诊断为焦虑症的个体发生乙醇滥用和依赖的风险大大增加。随着长期使用，除了乙醇渴望的感觉之外，从乙醇中撤出还与焦虑增加有关。这被认为会导致一个持续使用乙醇的循环。我们开始了解这些过程的生物学基础，本申请的目标是继续探索乙醇诱导的抗焦虑和戒断诱导的焦虑发生的机制。 INIA West已经确定了由编码神经元钾通道的家族组成的靶基因。 我们特别感兴趣的是一个大电导电压和钙调节电流，BK电流。先前的行为学研究表明，这些离子通道对低浓度的乙醇高度敏感，解剖学研究表明，它们在中央杏仁核（CeA）中大量表达。杏仁核的形成在乙醇等抗焦虑药物的作用中起着关键作用，可能是研究乙醇调节焦虑机制的最合适的大脑区域。因此，我们认为杏仁核中这些通道的改变可能会影响乙醇介导的抗焦虑作用和戒断诱导的焦虑发生。在我们的主要合作者Candice Contet博士（Scripps研究所）的实验室中进行的研究表明，使用慢性间歇性乙醇模型的慢性乙醇暴露可调节杏仁核中BK通道亚基的基因表达。这些重要的基础研究是基于行为实验，现在是适当的，在细胞水平上进行机制研究，解决乙醇和BK通道之间的相互作用，在扩展杏仁核。因此，我们建议使用药理学和遗传操作来表征这些通道的具体贡献的行动，乙醇对神经元兴奋性的CeA。 最终，更好地了解酒精诱导的改变，在这些离子通道系统的CeA可以促进开发新的治疗酒精中毒的疗法。