Department of Physics, University of Michigan, Ann Arbor, MI 48109, USA.
Phys Biol. 2010 Mar 12;7:16015. doi: 10.1088/1478-3975/7/1/016015.
Interneurons coupled by both electrical gap-junctions (GJs) and chemical GABAergic synapses are major components of forebrain networks. However, their contributions to the generation of specific activity patterns, and their overall contributions to network function, remain poorly understood. Here we demonstrate, using computational methods, that the topological properties of interneuron networks can elicit a wide range of activity dynamics, and either prevent or permit local pattern formation. We systematically varied the topology of GJ and inhibitory chemical synapses within simulated networks, by changing connection types from local to random, and changing the total number of connections. As previously observed we found that randomly coupled GJs lead to globally synchronous activity. In contrast, we found that local GJ connectivity may govern the formation of highly spatially heterogeneous activity states. These states are inherently temporally unstable when the input is uniformly random, but can rapidly stabilize when the network detects correlations or asymmetries in the inputs. We show a correspondence between this feature of network activity and experimental observations of transient stabilization of striatal fast-spiking interneurons (FSIs), in electrophysiological recordings from rats performing a simple decision-making task. We suggest that local GJ coupling enables an active search-and-select function of striatal FSIs, which contributes to the overall role of cortical-basal ganglia circuits in decision-making.
电间隙连接 (GJ) 和化学 GABA 能突触均耦联的中间神经元是前脑网络的主要组成部分。然而,它们对特定活动模式的产生的贡献,以及它们对网络功能的整体贡献,仍知之甚少。在这里,我们使用计算方法证明,中间神经元网络的拓扑性质可以引发广泛的活动动力学,并且可以防止或允许局部模式形成。我们通过改变连接类型从局部到随机,以及改变连接的总数,系统地改变模拟网络中的 GJ 和抑制性化学突触的拓扑结构。如前所述,我们发现随机耦联的 GJ 导致全局同步活动。相比之下,我们发现局部 GJ 连接性可能控制高度空间异质性活动状态的形成。当输入均匀随机时,这些状态在本质上是不稳定的,但当网络检测到输入中的相关性或不对称性时,它们可以迅速稳定下来。我们展示了网络活动的这一特征与在大鼠进行简单决策任务的电生理记录中观察到的纹状体快速放电中间神经元 (FSI) 的瞬态稳定的实验观察之间的对应关系。我们认为,局部 GJ 耦合使纹状体 FSIs 具有主动搜索和选择功能,这有助于皮质基底节回路在决策中的整体作用。