Mechanisms of Synaptic Dopamine Signaling in the Control of Behavior

突触多巴胺信号传导在行为控制中的机制

• 批准号: 10605347
• 负责人: Sharad Ramanathan
• 金额: $ 52.67万
• 依托单位: NEW YORK UNIVERSITY SCHOOL OF MEDICINE
• 依托单位国家: 美国
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-07-01 至 2025-04-30
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10605347
• 关键词: Acceleration; Address; Affect; Animals; Attention; Behavior; Behavior Control; Behavioral; Behavioral Genetics; Brain; Caenorhabditis elegans; Calcium; Cells; Cognition; DRD2 gene; Data; Desire for food; Disease; Dopamine; Dopamine Receptor; Drug Targeting; Event; Experimental Models; Family; Food; Functional Imaging; Functional disorder; G-Protein-Coupled Receptors; GABA-A Receptor; Genetic; Human; Individual; Interneurons; Ion Channel Gating; Ligand Binding; Ligands; Link; Mediating; Mental disorders; Methods; Microscopic; Microscopy; Molecular; Molecular Genetics; Molecular Mechanisms of Action; Movement; Movement Disorders; Nematoda; Nervous System; Neurobiology; Neuromodulator; Neurons; Neurotransmitters; Obsessive-Compulsive Disorder; Optical Instrument; Parkinson Disease; Physiology; Play; Potassium Channel; Process; Property; Receptor Signaling; Regulation; Research; Rewards; Role; Schizophrenia; Signal Transduction; Speed; Stereotyping; Stimulus; Synapses; System; TRP channel; Techniques; Transcript; addiction; behavior change; behavioral response; cellular targeting; design; dopamine system; dopaminergic neuron; drug of abuse; experimental study; gene discovery; in vivo; innovation; mutant; nervous system disorder; neural circuit; neurochemistry; neuropsychiatric disorder; neuroregulation; novel; novel strategies; optogenetics; postsynaptic; postsynaptic neurons; presynaptic; programs; receptor; response; targeted treatment; therapeutic target; tool

The neuromodulator dopamine is important for many brain functions: loss of dopamine neurons causes movement disorders, such as Parkinson’s disease; dopamine signaling is targeted by drugs of abuse and integral to the neurobiology of reward and addiction; and dopamine signaling is a therapeutic target for the treatment of many neuropsychiatric disorders. Despite its importance in the brain, relatively little is known about mechanisms that regulate synaptic dopamine release in vivo. And although the effects of dopamine on individual cells have been extensively studied, how dopamine signals are processed to change the dynamics of post synaptic neurons to execute changes of behavior is not well understood. The microscopic roundworm C. elegans offers the opportunity to study these aspects of dopamine signaling using powerful tools of molecular genetics and in vivo circuit analysis. Using behavioral genetics and newly developed methods for analysis of neural circuits in behaving animals we will (1) determine mechanisms that regulate dopamine release in response to appetitive stimuli and postsynaptic and (2) determine circuit mechanisms that transform dopamine signaling events into lasting changes in behavior. Because of the ancient and conserved functions of dopamine signaling in the animal nervous system, we propose that our studies will also advance understanding of pre- and postsynaptic mechanisms in dopamine systems of the human brain and accelerate discovery of new approaches to understanding and treating diseases linked to dysfunction of dopaminergic systems.

神经调节剂多巴胺对许多大脑功能很重要：多巴胺神经元的丧失 运动障碍，例如帕金森氏病；多巴胺信号是由滥用药物和 奖励和成瘾的神经生物学不可或缺；多巴胺信号传导是 许多神经精神疾病的治疗。尽管它在大脑中的重要性，但知之甚少 关于调节体内突触多巴胺释放的机制。尽管多巴胺对 单个单元格广泛研究，如何处理多巴胺信号以更改动力学 在执行行为变化的突触神经元中，尚不清楚。微观round虫 秀丽隐杆线虫提供了使用强大的工具来研究多巴胺信令的这些方面 分子遗传学和体内电路分析。使用行为遗传学和新开发的方法 分析行为动物中的神经回路我们将（1）确定调节多巴胺的机制 响应开胃刺激和突触后的释放，（2）确定转化的电路机制 多巴胺信号事件变成行为的持久变化。由于古老而构成的功能 动物神经系统中的多巴胺信号传导，我们建议我们的研究也将推进 了解人脑多巴胺系统中突触前和后机制并加速 发现与多巴胺能功能障碍有关的理解和治疗疾病的新方法 系统。

项目成果

High-fidelity encoding of mechanostimuli by tactile food-sensing neurons requires an ensemble of ion channels.

• DOI: 10.1016/j.celrep.2023.112452
• 发表时间: 2023-05-30
• 期刊: Cell reports
• 影响因子: 8.8