帕金森病神经回路的光学解构
Optical deconstruction of parkinsonian neural circuitry.
作者信息
Gradinaru Viviana, Mogri Murtaza, Thompson Kimberly R, Henderson Jaimie M, Deisseroth Karl
机构信息
Department of Bioengineering, Stanford University, Stanford, CA 94305, USA.
出版信息
Science. 2009 Apr 17;324(5925):354-9. doi: 10.1126/science.1167093. Epub 2009 Mar 19.
Abstract
Deep brain stimulation (DBS) is a therapeutic option for intractable neurological and psychiatric disorders, including Parkinson's disease and major depression. Because of the heterogeneity of brain tissues where electrodes are placed, it has been challenging to elucidate the relevant target cell types or underlying mechanisms of DBS. We used optogenetics and solid-state optics to systematically drive or inhibit an array of distinct circuit elements in freely moving parkinsonian rodents and found that therapeutic effects within the subthalamic nucleus can be accounted for by direct selective stimulation of afferent axons projecting to this region. In addition to providing insight into DBS mechanisms, these results demonstrate an optical approach for dissection of disease circuitry and define the technological toolbox needed for systematic deconstruction of disease circuits by selectively controlling individual components.
摘要
深部脑刺激(DBS)是治疗难治性神经和精神疾病的一种选择,包括帕金森病和重度抑郁症。由于放置电极的脑组织具有异质性,阐明DBS相关的靶细胞类型或潜在机制一直具有挑战性。我们使用光遗传学和固态光学技术,在自由活动的帕金森病啮齿动物中系统地驱动或抑制一系列不同的神经回路元件,发现丘脑底核内的治疗效果可通过直接选择性刺激投射到该区域的传入轴突来解释。除了深入了解DBS机制外,这些结果还展示了一种剖析疾病神经回路的光学方法,并定义了通过选择性控制单个组件来系统解构疾病回路所需的技术工具箱。
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