Ryanodine释放对星形胶质细胞钙动力学模型的修正

Y. Fritsler, S. Bartsev, O. Belozor, A. Shuvaev, A. Shuvaev
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引用次数: 0

摘要

研究了ryanodine通道对胞底Ca2+动力学的影响。我们将ryanodine受体和电压门控钙通道的方程添加到原始De Pitta等人的Ca2+模型中。导出的模型被证明具有更广泛的预测范围:我们导出了星形胶质细胞中Ca2+信号传导的各种现有模型的胞底钙自发振荡的频率(在原始的De Pitta等模型中不存在)。特别是,De Pitta等人的最初结果可以转换为Lavrentovich和Hemkin模型,也可以转换为Dupont等人的模型预测。最近报道了星形胶质细胞中Ca2+振荡的缺失,这些细胞具有活跃的ryanodine通道。这种行为可以在我们对某些参数值的模型预测中实现,这些参数值被认为是星形胶质细胞中细胞质Ca2+振荡和非振荡动力学之间的分岔景观的原因。我们还研究了自发振荡和谷氨酸触发振荡之间的相互作用。
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Modifying the Models of Calcium Dynamics in Astrocytes by Ryanodine Release
The influence of ryanodine channels on the cytosole Ca2+ dynamics was studied. We added the equations for ryanodine receptors and voltage-gated calcium channels into the original De Pitta et al. model of Ca2+. The derived model was shown to have significantly wider range of predictions: we derived the frequency of cytosole calcium spontaneous oscillations (which are absent in the original De Pitta et al. model) for various existing models of Ca2+ signalling in astrocytes. Particularly, the initial De Pitta et al. results can be converted to either Lavrentovich and Hemkin model or in the Dupont et al model predictions. The absence of the Ca2+ oscillations in astrocytes with the active ryanodine channels only was recently reported. This behaviour can be achieved in our model predictions for the certain values of parameters, which are supposedly responsible for the bifurcation landscape between the oscillatory and non-oscillatory dynamics of cytosol Ca2+ in astrocytes. We also investigated the interplay between the spontaneous and glutamate-triggered oscillations.
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来源期刊
Mathematical Biology and Bioinformatics
Mathematical Biology and Bioinformatics Mathematics-Applied Mathematics
CiteScore
1.10
自引率
0.00%
发文量
13
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