PKC Delta in Ethanol Regulation of GABA-A Receptors and Behavior

GABA-A 受体和行为的乙醇调节中的 PKC Delta

• 批准号: 7934633
• 负责人: ROBERT O. MESSING
• 金额: $ 35万
• 依托单位: ERNEST GALLO CLINIC AND RESEARCH CENTER
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-09-20 至 2014-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7934633
• 关键词: Adult; Alanine; Alcohol consumption; Alcoholic Intoxication; Amygdaloid structure; Ataxia; Behavior; Behavior Control; Behavioral; Biological Assay; Blood - brain barrier anatomy; Brain; Brain region; Cells; Chemosensitization; Cultured Cells; Development; Dose; Ethanol; Fibroblasts; Figs - dietary; Financial compensation; GABA-A Receptor; Genes; Goals; Hippocampus (Brain); Human; In Vitro; Injection of therapeutic agent; Intoxication; Knock-in Mouse; Knock-out; Knockout Mice; Life; Mediating; Molecular; Mus; Neurons; Phenotype; Phosphorylation; Phosphorylation Site; Phosphotransferases; Play; Property; Protein Kinase C; Proteins; Regulation; Research Personnel; Resistance; Rodent; Role; Self Administration; Signal Pathway; Signal Transduction; Site; Slice; Specificity; Testing; Thalamic structure; Tissues; alcohol behavior; alcohol effect; alcohol response; alcohol sensitivity; alcohol use disorder; analog; base; chemical genetics; dentate gyrus; drinking; drinking water; gamma-Aminobutyric Acid; hypnotic; interest; kinase inhibitor; mature animal; mouse model; mutant; novel; novel therapeutics; preference; protein kinase C-delta; public health relevance; receptor; social; tool

DESCRIPTION (provided by applicant): Studies with protein kinase C delta knockout (PKC4-/-) mice indicate that PKC4 regulates ethanol intoxication and self-administration. These effects may be related to PKC4 actions at extrasynaptic GABAA receptors, since thalamic and hippocampal neurons from PKC4-/- mice lack ethanol enhancement of tonic inhibitory GABA currents. The main hypothesis of this project is that PKC4 regulates ethanol intoxication and self-administration by phosphorylating proteins that alter the function of extrasynaptic GABAA receptors in brain regions controlling these behaviors. This hypothesis will be tested using a novel mouse model, a knock-in mouse that expresses an ATP analog-sensitive mutant of PKC4 (AS-PKC4). AS-PKC4 can be selectively and potently inhibited by analogs of the general kinase inhibitor PP1 that cross the blood brain barrier and can be administered orally or by i.p. injection. Studies will determine if inhibition of AS-PKC4 mice increases signs of ethanol intoxication and enhances ethanol self-administration in adult mice. Electrophysiological studies in brain slices will investigate whether inhibiting AS-PKC4 blocks ethanol potentiation of tonic GABA currents in hippocampal, thalamic, and amygdala neurons. In vitro kinase assays will determine if 22, 23, and 4 subunits are possible substrates of PKC4. Novel ATP analogs will be used with tissues from AS-PKC4 mice to identify PKC4 phosphorylation sites on GABAA receptor-associated proteins. Studies in cells that heterologously express 1422/34 receptors and receptor-associated proteins with alanine substitutions at PKC4 phosphorylation sites, will determine if these sites regulate the ethanol sensitivity of 1422/34 receptors. The overall goal of this project is to identify a novel PKC4 signaling pathway that regulates the ethanol sensitivity of extrasynaptic GABAA receptors and may contain targets for the development of new therapeutics to treat alcohol use disorders. PUBLIC HEALTH RELEVANCE We will investigate the role of PKC4 in ethanol's effects on behavior and on regulation of GABAA receptors. These studies will utilize an ATP-analog sensitive form of PKC4 that can be inhibited with high selectivity and specificity, and can be used to identify PKC4 substrates. The results of these studies will reveal new molecular mechanisms that regulate GABA signaling, behavioral sensitivity to ethanol, and ethanol consumption.

描述(由申请人提供)：对蛋白激酶C Delta基因敲除(PKC4-/-)小鼠的研究表明，PKC4调节乙醇中毒和自我给药。这些效应可能与PKC4在突触外GABAA受体上的作用有关，因为来自PKC4-/-小鼠的丘脑和海马神经元缺乏乙醇对紧张性抑制性GABA电流的增强作用。这个项目的主要假设是，PKC4通过磷酸化蛋白质来调节酒精中毒和自我给药，这些蛋白质改变了控制这些行为的大脑区域突触外GABAA受体的功能。这一假设将使用一种新的小鼠模型进行验证，该模型是一种表达对ATP类似物敏感的PKC4突变体(AS-PKC4)的敲入小鼠。AS-PKC4可以被一般的激酶抑制剂PP1的类似物选择性和有效地抑制，这种类似物可以穿过血脑屏障，可以口服或通过ip给药。注射。研究将确定抑制AS-PKC4小鼠是否会增加酒精中毒的迹象，并增强成年小鼠的乙醇自我给药。脑片的电生理学研究将调查抑制AS-PKC4是否能阻断乙醇对海马、丘脑和杏仁核神经元紧张性GABA电流的增强作用。体外激酶分析将确定22、23和4亚基是否是PKC4的可能底物。新的ATP类似物将用于AS-PKC4小鼠的组织，以确定GABAA受体相关蛋白上的PKC4磷酸化位点。在异源表达1422/34受体和受体相关蛋白的细胞中进行的研究，将确定这些位点是否调节1422/34受体的乙醇敏感性。本项目的总体目标是寻找一条新的PKC4信号通路，该通路调节突触外GABAA受体的乙醇敏感性，并可能包含用于治疗酒精使用障碍的新疗法的开发靶点。公共卫生相关性我们将研究PKC4在乙醇对行为的影响和对GABAA受体调节中的作用。这些研究将利用一种对ATP类似的敏感形式的PKC4，这种形式可以高选择性和特异性地被抑制，并可用于识别PKC4底物。这些研究的结果将揭示调节GABA信号、对乙醇的行为敏感性和乙醇消耗的新的分子机制。