Ramakrishnan Bhuvanasundaram, Samantha Washburn, Joanna Krzyspiak, K. Khodakhah
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引用次数: 0
Abstract
The zona incerta (ZI) is a subthalamic structure that has been implicated in locomotion, fear, and anxiety. Recently interest has grown in its therapeutic efficacy in deep brain stimulation (DBS) in movement disorders. This efficacy might be due to the ZI’s functional projections to the other brain regions. Notwithstanding some evidence of anatomical connections between the ZI and the inferior olive (IO) and the pontine nuclei (PN), how the ZI modulates the neuronal activity in these regions remains to be determined. We first tested this by monitoring responses of single neurons in the PN and IO to optogenetic activation of channelrhodopsin-expressing ZI axons in wild-type mice, using an in vivo awake preparation. Stimulation of short, single pulses and trains of stimuli at 20 Hz elicited rapid responses in the majority of recorded cells in the PN and IO. Furthermore, the excitatory response of PN neurons scaled with the strength of ZI activation. Next, we used in vitro electrophysiology to study synaptic transmission at ZI-IO synapses. Optogenetic activation of ZI axons evoked a strong excitatory post-synaptic response in IO neurons, which remained robust with repeated stimulation at 20 Hz. Overall, our results demonstrate a functional connection within ZI-PN and ZI-IO pathways.
突触区(ZI)是眼下丘结构,与运动、恐惧和焦虑有关。最近,人们对其在运动障碍的深部脑刺激(DBS)治疗中的疗效越来越感兴趣。这种疗效可能得益于 ZI 对其他脑区的功能性投射。尽管有证据表明 ZI 与下橄榄核(IO)和桥脑核(PN)之间存在解剖学联系,但 ZI 如何调节这些区域的神经元活动仍有待确定。我们首先利用体内清醒制备方法,在野生型小鼠体内监测 PN 和 IO 中的单个神经元对光电激活表达通道荧光素的 ZI 轴突的反应,从而检验了这一问题。20赫兹的单个短脉冲刺激和一连串刺激在PN和IO的大多数记录细胞中引起了快速反应。此外,PN神经元的兴奋反应与ZI激活的强度成比例。接下来,我们利用体外电生理学研究了 ZI-IO 突触的突触传递。ZI轴突的光遗传激活在IO神经元中诱发了强烈的兴奋性突触后反应,这种反应在20赫兹的重复刺激下仍然保持稳定。总之,我们的研究结果证明了 ZI-PN 和 ZI-IO 通路之间的功能联系。
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