Yuhui Li , Sung-Ho Lee , Chunxiu Yu , Li-Ming Hsu , Tzu-Wen W. Wang , Khoa Do , Hyeon-Joong Kim , Yen-Yu Ian Shih , Warren M. Grill
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引用次数: 0
摘要
虽然脑深部刺激(DBS)被广泛用于控制帕金森病(PD)的运动症状,但其确切的电路机制仍存在争议。为了确定治疗性 DBS 对帕金森病影响的神经靶点,我们使用功能磁共振成像(fMRI)分析了 DBS 诱发的雌性半帕金森大鼠的全脑活动。我们使用光遗传学方法,以不同的刺激脉冲重复率给予丘脑下核(STN)DBS,从而对特定细胞类型的 STN 前馈神经活动进行了无偏见的检查。单侧光遗传学 STN DBS 会引起 SNr(黑质网状旁)、GP(球状苍白球)和 CPu(尾状核丘脑)的血氧水平依赖性(BOLD)信号发生脉冲重复率变化。值得注意的是,这种调节有效地改善了表达运动速度更快的 Chronos 蛋白的动物的病态绕圈行为,但对表达 ChR2 的动物却没有效果。此外,中介分析表明,脉冲重复率依赖性的行为拯救在很大程度上是由光遗传 DBS 引起的 GP 和 CPu 的活动变化介导的,而不是 SNr。这表明 GP 和 CPu 的激活在 STN DBS 的治疗机制中起着关键作用。
Optogenetic fMRI reveals therapeutic circuits of subthalamic nucleus deep brain stimulation
While deep brain stimulation (DBS) is widely employed for managing motor symptoms in Parkinson's disease (PD), its exact circuit mechanisms remain controversial. To identify the neural targets affected by therapeutic DBS in PD, we analyzed DBS-evoked whole brain activity in female hemi-parkinsonian rats using functional magnetic resonance imaging (fMRI). We delivered subthalamic nucleus (STN) DBS at various stimulation pulse repetition rates using optogenetics, allowing unbiased examination of cell-type specific STN feedforward neural activity. Unilateral optogenetic STN DBS elicited pulse repetition rate-dependent alterations of blood-oxygenation-level-dependent (BOLD) signals in SNr (substantia nigra pars reticulata), GP (globus pallidus), and CPu (caudate putamen). Notably, this modulation effectively ameliorated pathological circling behavior in animals expressing the kinetically faster Chronos opsin, but not in animals expressing ChR2. Furthermore, mediation analysis revealed that the pulse repetition rate-dependent behavioral rescue was significantly mediated by optogenetic DBS induced activity changes in GP and CPu, but not in SNr. This suggests that the activation of GP and CPu are critically involved in the therapeutic mechanisms of STN DBS.
期刊介绍:
Brain Stimulation publishes on the entire field of brain stimulation, including noninvasive and invasive techniques and technologies that alter brain function through the use of electrical, magnetic, radiowave, or focally targeted pharmacologic stimulation.
Brain Stimulation aims to be the premier journal for publication of original research in the field of neuromodulation. The journal includes: a) Original articles; b) Short Communications; c) Invited and original reviews; d) Technology and methodological perspectives (reviews of new devices, description of new methods, etc.); and e) Letters to the Editor. Special issues of the journal will be considered based on scientific merit.
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