高级丘脑神经元中来自不同皮层区域的信号整合。
Integration of signals from different cortical areas in higher order thalamic neurons.
机构信息
Department of Neurobiology, University of Chicago, Chicago, IL 60637.
Biosciences Division, Argonne National Laboratory, Lemont, IL 60439.
出版信息
Proc Natl Acad Sci U S A. 2021 Jul 27;118(30). doi: 10.1073/pnas.2104137118.
Abstract
Higher order thalamic neurons receive driving inputs from cortical layer 5 and project back to the cortex, reflecting a transthalamic route for corticocortical communication. To determine whether or not individual neurons integrate signals from different cortical populations, we combined electron microscopy "connectomics" in mice with genetic labeling to disambiguate layer 5 synapses from somatosensory and motor cortices to the higher order thalamic posterior medial nucleus. A significant convergence of these inputs was found on 19 of 33 reconstructed thalamic cells, and as a population, the layer 5 synapses were larger and located more proximally on dendrites than were unlabeled synapses. Thus, many or most of these thalamic neurons do not simply relay afferent information but instead integrate signals as disparate in this case as those emanating from sensory and motor cortices. These findings add further depth and complexity to the role of the higher order thalamus in overall cortical functioning.
摘要
高级丘脑神经元接收来自皮质层 5 的驱动输入,并投射回皮质,反映了皮质间通讯的丘脑途径。为了确定单个神经元是否整合来自不同皮质群体的信号,我们将小鼠的电子显微镜“连接组学”与遗传标记相结合,以区分来自体感和运动皮质的皮质 5 突触到高级丘脑后内侧核。在 33 个重建的丘脑细胞中,有 19 个发现了这些输入的显著汇聚,并且作为一个群体,皮质 5 突触比未标记的突触更大,并且位于树突上更靠近近端。因此,这些丘脑神经元中的许多或大多数并非简单地传递传入信息,而是整合了信号,在这种情况下,这些信号与来自感觉和运动皮质的信号一样不同。这些发现为高级丘脑在整个皮质功能中的作用增添了更深层次和更复杂的内容。
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