DOPAMINERGIC CONTROL OF SPINAL CORD AND RESTLESS LEGS

多巴胺能控制脊髓和不宁腿

• 批准号: 6681382
• 负责人: SHAWN HOCHMAN
• 金额: $ 33.01万
• 依托单位: EMORY UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-09-01 至 2007-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6681382
• 关键词: afferent nerve; central nervous system disorders; circadian rhythms; dopamine; dopamine receptor; dorsal root; electrocardiography; electroencephalography; electromyography; genetically modified animals; hypothalamus; in situ hybridization; laboratory mouse; leg; neuromuscular transmission; spinal cord; ventral roots

DESCRIPTION (provided by applicant): Restless legs syndrome (RLS) is a CNS disorder involving abnormal muscle sensations that are reduced during motor activity, worsen at rest, and have a marked circadian pattern. Primary treatment involves providing drugs that increase CNS dopaminergic activity, particularly activation of D2-1ike receptors. The hypothalamus controls autonomic function and circadian rhythmicity. The dorso-posterior (A11) region contains the only dopaminergic (DA) projections to spinal cord. DA fibers terminate largely in the intermediolateral column (IML) housing preganglionic sympathetic neurons and in dorsal horn regions related to muscle afferent processing. We hypothesize: (i) That a deficit in hypothalamo-spinal DA activity results in an aberrant activation of muscle afferents; directly, by reducing tonic inhibition of afferent input, and; indirectly, via a disinhibition-induced increase in sympathetic drive to skeletal muscle afferents. (ii) That low-threshold afferent activity (e.g. during movement) presynaptically depresses high-threshold muscle afferents. (iii) That DA disinhibitory actions should peak at night, the nadir of hypothalamic circadian dopamine release. As the A11 region provides the only DA input, all spinal modulatory actions can be ascribed to its function. Hence, studies of DA modulatory actions in the in vitro spinal cord will characterize the complex cellular and network actions of hypothalamo-spinal dopamine function. First, we plan to characterize the dopamine receptor distribution in spinal cord using immunostaining and in situ hybridization techniques. We will then study 5-HT and dopamine modulation of IML neuronal excitability and whether increases in sympathetic drive facilitate muscle afferent activity and input to spinal neurons. Lastly, we will use A11 neurochemical lesioning and D3 receptor knockout mice to examine their effects on alterations in spinal cord function and relate these changes to changes in several movement-related behavioral parameters concomitant with recordings of EEG, neck & limb EMG, and EKG. The uniqueness of our proposal is the development of novel and testable hypotheses on putative spinal mechanisms causing RLS. It involves the first detailed study of DA modulation of spinal cord function and it is undertaken at behavioral, network, and cellular levels, including an attempt to develop an animal model of RLS.

描述（由申请方提供）：不宁腿综合征（RLS）是一种中枢神经系统疾病，涉及运动活动期间肌肉感觉异常，休息时加重，并具有明显的昼夜节律模式。主要治疗包括提供增加CNS多巴胺能活性的药物，特别是D2- 1样受体的活化。 下丘脑控制自主神经功能和昼夜节律。背后部（A11）区域包含唯一的多巴胺能（DA）投射到脊髓。DA纤维主要终止于容纳节前交感神经元的中间外侧柱（IML）和与肌肉传入处理相关的背角区域。我们假设：（i）下丘脑-脊髓DA活性的缺陷导致肌肉传入的异常激活;直接地，通过减少传入输入的紧张性抑制，和;间接地，通过去抑制诱导的对骨骼肌传入的交感神经驱动的增加。(ii)这种低阈值的传入活动（例如在运动过程中）会在突触前抑制高阈值的肌肉传入。(iii)DA去抑制作用应该在夜间达到高峰，这是下丘脑昼夜多巴胺释放的最低点。 由于A11区提供唯一的DA输入，所有脊髓调节作用都可以归因于其功能。因此，在离体脊髓中DA调节作用的研究将表征下丘脑-脊髓多巴胺功能的复杂细胞和网络作用。首先，我们计划使用免疫染色和原位杂交技术来表征多巴胺受体在脊髓中的分布。然后，我们将研究5-HT和多巴胺调制的IML神经元的兴奋性，以及是否增加交感神经驱动促进肌肉传入活动和输入脊髓神经元。最后，我们将使用A11神经化学损伤和D3受体敲除小鼠来检查它们对脊髓功能改变的影响，并将这些变化与伴随EEG、颈肢EMG和EKG记录的几个运动相关行为参数的变化联系起来。 我们的建议的独特性是发展新的和可验证的假设，对推定的脊髓机制造成RLS。它涉及脊髓功能的DA调制的第一个详细的研究，它是在行为，网络和细胞水平进行，包括试图开发一个动物模型的RLS。