Li Yanheng, Zhang Ruiming, Sun Xiaojuan
School of Science, Beijing University of Posts and Telecommunications, Beijing, 100876 China.
Key Laboratory of Mathematics and Information Networks (Beijing University of Posts and Telecommunications), Ministry of Education, Beijing, 100876 China.
Cogn Neurodyn. 2024 Dec;18(6):3915-3928. doi: 10.1007/s11571-024-10175-0. Epub 2024 Sep 12.
The apical dendrites of human L2/3 pyramidal neurons are capable of performing XOR computation by modulating the amplitude of dendritic calcium action potentials (dCaAPs) mediated by calcium ions. What influences this particular function? There is still no answer to this question. In this study, we employed a rational and feasible reduction method to successfully derive simplified models of human L2/3 pyramidal neurons while preserving their detailed functional properties. Using a conductance-based model, we manipulated the membrane potential of the apical dendrite in the simplified model. Our findings indicate that an increase in sodium conductance ( ) and membrane capacitance ( ) weakens the XOR function, while regulation of potassium conductance ( ) demonstrates robustness in maintaining the XOR function. Further analysis reveals that when a single pathway is activated, an increase in and leads to decrease in the amplitude of dCaAPs, whereas increasing has a relatively minor impact on dCaAPs amplitude. In conclusion, although calcium ions play a crucial role in enabling apical dendrites of human L2/3 pyramidal neurons to perform XOR computation, other ion channels' conductance and membrane capacitance can also influence this function.
人类L2/3锥体神经元的顶端树突能够通过调节由钙离子介导的树突状钙动作电位(dCaAPs)的幅度来执行异或计算。是什么影响了这一特殊功能?这个问题仍然没有答案。在本研究中,我们采用了一种合理可行的简化方法,成功地推导了人类L2/3锥体神经元的简化模型,同时保留了它们详细的功能特性。使用基于电导的模型,我们在简化模型中操纵顶端树突的膜电位。我们的研究结果表明,钠电导( )和膜电容( )的增加会削弱异或功能,而钾电导( )的调节在维持异或功能方面表现出稳健性。进一步分析表明,当单一通路被激活时, 和 的增加会导致dCaAPs幅度的降低,而增加 对dCaAPs幅度的影响相对较小。总之,虽然钙离子在使人类L2/3锥体神经元的顶端树突执行异或计算中起着关键作用,但其他离子通道的电导和膜电容也会影响这一功能。