Modeling signal transduction leading to synaptic plasticity: evaluation and comparison of five models.

Tiina Manninen, Katri Hituri, Eeva Toivari, Marja-Leena Linne
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引用次数: 11

Abstract

An essential phenomenon of the functional brain is synaptic plasticity which is associated with changes in the strength of synapses between neurons. These changes are affected by both extracellular and intracellular mechanisms. For example, intracellular phosphorylation-dephosphorylation cycles have been shown to possess a special role in synaptic plasticity. We, here, provide the first computational comparison of models for synaptic plasticity by evaluating five models describing postsynaptic signal transduction networks. Our simulation results show that some of the models change their behavior completely due to varying total concentrations of protein kinase and phosphatase. Furthermore, the responses of the models vary when models are compared to each other. Based on our study, we conclude that there is a need for a general setup to objectively compare the models and an urgent demand for the minimum criteria that a computational model for synaptic plasticity needs to meet.

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导致突触可塑性的信号转导建模:五种模型的评价和比较。
功能大脑的一个基本现象是突触可塑性,它与神经元之间突触强度的变化有关。这些变化受到细胞外和细胞内机制的影响。例如,细胞内磷酸化-去磷酸化循环已被证明在突触可塑性中具有特殊作用。在这里,我们通过评估描述突触后信号转导网络的五种模型,首次提供了突触可塑性模型的计算比较。我们的模拟结果表明,由于蛋白激酶和磷酸酶的总浓度的变化,一些模型完全改变了它们的行为。此外,当模型相互比较时,模型的响应会有所不同。基于我们的研究,我们得出结论,有必要建立一个通用的设置来客观地比较模型,并迫切需要一个突触可塑性计算模型需要满足的最低标准。
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