Urbain Nadia, Salin Paul A, Libourel Paul-Antoine, Comte Jean-Christophe, Gentet Luc J, Petersen Carl C H
Laboratory of Sensory Processing, Brain Mind Institute, Faculty of Life Sciences, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne 1015, Switzerland; Physiopathologie des Réseaux Neuronaux du Cycle Sommeil, Centre de Recherche en Neurosciences de Lyon, INSERM U1028-CNRS UMR5292, Université Claude-Bernard-Lyon 1, 69372 Lyon, France.
Physiopathologie des Réseaux Neuronaux du Cycle Sommeil, Centre de Recherche en Neurosciences de Lyon, INSERM U1028-CNRS UMR5292, Université Claude-Bernard-Lyon 1, 69372 Lyon, France.
Cell Rep. 2015 Oct 27;13(4):647-656. doi: 10.1016/j.celrep.2015.09.029. Epub 2015 Oct 17.
The thalamus transmits sensory information to the neocortex and receives neocortical, subcortical, and neuromodulatory inputs. Despite its obvious importance, surprisingly little is known about thalamic function in awake animals. Here, using intracellular and extracellular recordings in awake head-restrained mice, we investigate membrane potential dynamics and action potential firing in the two major thalamic nuclei related to whisker sensation, the ventral posterior medial nucleus (VPM) and the posterior medial group (Pom), which receive distinct inputs from brainstem and neocortex. We find heterogeneous state-dependent dynamics in both nuclei, with an overall increase in action potential firing during active states. Whisking increased putative lemniscal and corticothalamic excitatory inputs onto VPM and Pom neurons, respectively. A subpopulation of VPM cells fired spikes phase-locked to the whisking cycle during free whisking, and these cells may therefore signal whisker position. Our results suggest differential processing of whisking comparing thalamic nuclei at both sub- and supra-threshold levels.
丘脑将感觉信息传递至新皮层,并接收来自新皮层、皮层下及神经调节的输入。尽管其重要性显而易见,但令人惊讶的是,对于清醒动物丘脑功能的了解却少之又少。在此,我们利用清醒的头部固定小鼠进行细胞内和细胞外记录,研究了与触须感觉相关的两个主要丘脑核团,即腹后内侧核(VPM)和内侧后核(Pom)的膜电位动态及动作电位发放,这两个核团分别接收来自脑干和新皮层的不同输入。我们发现两个核团均存在异质性的状态依赖性动态变化,在活跃状态下动作电位发放总体增加。触须运动分别增加了假定的lemniscal和皮质丘脑兴奋性输入到VPM和Pom神经元上。在自由触须运动期间,VPM细胞的一个亚群发放与触须运动周期锁相的尖峰,因此这些细胞可能用于信号触须位置。我们的结果表明,在阈下和阈上水平,丘脑核团对触须运动的处理存在差异。
