Magill P J, Bolam J P, Bevan M D
Medical Research Council Anatomical Neuropharmacology Unit, University Department of Pharmacology, Oxford, OX1 3TH, United Kingdom.
J Neurosci. 2000 Jan 15;20(2):820-33. doi: 10.1523/JNEUROSCI.20-02-00820.2000.
One of the functions of the excitatory subthalamic nucleus (STN) is to relay cortical activity to other basal ganglia structures. The response of the STN to cortical input is shaped by inhibition from the reciprocally connected globus pallidus (GP). To examine the activity in the STN-GP network in relation to cortical activity, we recorded single and multiple unit activity in STN and/or GP together with cortical electroencephalogram in anesthetized rats during various states of cortical activation. During cortical slow-wave activity (SWA), STN and GP neurons fired bursts of action potentials at frequencies that were similar to those of coincident slow ( approximately 1 Hz) and spindle (7-14 Hz) cortical oscillations. Spontaneous or sensory-driven global activation was associated with a reduction of SWA and a shift in STN-GP activity from burst- to tonic- or irregular-firing. Rhythmic activity in STN and GP neurons was lost when the cortex was inactivated by spreading depression and did not resume until SWA had recovered. Although rhythmic STN-GP activity was correlated with SWA, the phase relationships of activities of neurons within the STN and GP and between the nuclei were variable. Even when neurons displayed synchronous bursting activity, correlations on the millisecond time scale, which might indicate shared synaptic input, were not observed. These data indicate that (1) STN and GP activity is intimately related to cortical activity and hence the sleep-wake cycle; (2) rhythmic oscillatory activity in the STN-GP network in disease states may be driven by the cortex; and (3) activity of the STN-GP network is regulated in space in a complex manner.
兴奋性丘脑底核(STN)的功能之一是将皮质活动传递至其他基底神经节结构。STN对皮质输入的反应受与其相互连接的苍白球(GP)的抑制作用影响。为了研究STN - GP网络中与皮质活动相关的活动,我们在麻醉大鼠处于各种皮质激活状态期间,记录了STN和/或GP中的单单位和多单位活动以及皮质脑电图。在皮质慢波活动(SWA)期间,STN和GP神经元以与同时出现的慢波(约1Hz)和纺锤波(7 - 14Hz)皮质振荡频率相似的频率发放动作电位爆发。自发或感觉驱动的整体激活与SWA的减少以及STN - GP活动从爆发式发放向紧张性或不规则发放的转变相关。当皮质因扩散性抑制而失活时,STN和GP神经元的节律性活动消失,直到SWA恢复才重新出现。尽管节律性STN - GP活动与SWA相关,但STN和GP内神经元活动以及两个核之间活动的相位关系是可变的。即使神经元表现出同步爆发活动,也未观察到可能表明共享突触输入的毫秒级时间尺度上的相关性。这些数据表明:(1)STN和GP活动与皮质活动密切相关,因此与睡眠 - 觉醒周期密切相关;(2)疾病状态下STN - GP网络中的节律性振荡活动可能由皮质驱动;(3)STN - GP网络的活动在空间上以复杂的方式受到调节。