Effects of synapse location, delay and background stochastic activity on synchronising hippocampal CA1 neurons

Alessandro Fiasconaro , Michele Migliore
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Abstract

We study the synchronisation of neurons in a realistic model under the Hodgkin–Huxley dynamics. To focus on the role of the different locations of the excitatory synapses, we use two identical neurons where the set of input signals is grouped at two different distances from the soma. The system is intended to represent a CA1 hippocampal neuron in which the synapses arriving from the CA3 neurons of the trisynaptic pathway appear to be localised in the apical dendritic region and are, in principle, either proximal or distal to the soma. Synchronisation is studied using a specifically defined spiking correlation function as a function of various parameters such as the distance from the soma of one of the synaptic groups, the inhibition weight and the associated activation delay. We found that the neurons’ spiking activity depends nonmonotonically on the relative dendritic location of the synapses and their inhibition weight, while the synchronisation measure always decreases with inhibition, and strongly depends on its activation time delay. In our model, the synaptic random subthreshold background activity substantially reduces synchronisation in a monotonic way, while highlights the importance of a balanced E/I contribution for neuronal synchronisation.
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突触位置、延迟和背景随机活动对海马 CA1 神经元同步化的影响
我们研究了霍奇金-赫胥黎动力学下神经元同步的现实模型。为了重点研究兴奋性突触的不同位置所起的作用,我们使用了两个相同的神经元,在这两个神经元中,一组输入信号被集中在离神经元体两个不同距离的地方。该系统旨在代表一个 CA1 海马神经元,在该神经元中,从三突触通路的 CA3 神经元到达的突触似乎位于顶端树突区域,原则上,这些突触要么靠近神经元体,要么远离神经元体。我们使用一个特定定义的尖峰相关函数来研究同步性,该函数是各种参数的函数,如其中一个突触群与神经元体的距离、抑制权重和相关激活延迟。我们发现,神经元的尖峰活动非单调地依赖于突触的相对树突位置及其抑制权重,而同步度量总是随着抑制而降低,并强烈依赖于其激活时间延迟。在我们的模型中,突触随机阈下背景活动以单调的方式大大降低了同步性,同时突出了均衡的 E/I 贡献对神经元同步性的重要性。
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来源期刊
Chaos, Solitons and Fractals: X
Chaos, Solitons and Fractals: X Mathematics-Mathematics (all)
CiteScore
5.00
自引率
0.00%
发文量
15
审稿时长
20 weeks
期刊最新文献
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