神经元和星形胶质细胞连接中 Ca2+ 振荡行为的数值模拟和分叉。

IF 1.8 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Cell Biochemistry and Biophysics Pub Date : 2024-11-15 DOI:10.1007/s12013-024-01427-1

Hemlata Jethanandani, Brajesh Kumar Jha

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引用次数: 0

摘要

大量研究表明，星形胶质细胞积极参与突触通信的调节。为了研究该模型的动态行为，我们求解了神经元-星形胶质细胞模型，并进行了分岔分析。本文利用平衡点、稳定性理论和中心流形定理从理论上研究了细胞质中 Ca2+ 振荡的动态分析。使用 IP3 和 2-AG 对细胞间三方突触的连接进行了建模。数学模型用于描述分叉和诱导 Ca2+ 动态的整体框架。结果表明，两个亚临界霍普夫分岔点可以部分解释 Ca2+ 振荡存在和消失的差异。细胞之间的交流是通过 Ca2+ 浓度的振荡实现的。此外，我们还进行了数值模拟，以证实所建议方法的有效性。因此，我们的研究结果表明，神经元-胃囊细胞串扰在产生各种神经元活动中发挥着基础性作用，从而提高了大脑的信息处理能力。

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Numerical Simulations and Bifurcation of Ca²⁺ Oscillatory Behaviour in the Connection of Neurons and Astrocytes.

Extensive research has demonstrated that astrocytes actively participate in the regulation of synaptic communication. To examine the dynamic behavior of the model, a neuron-astrocyte model has been solved, and a bifurcation analysis has been performed. This paper uses the equilibrium point, stability theory, and the center manifold theorem to theoretically investigate the dynamical analysis of Ca²⁺ oscillations in the cytosol. The connections at tripartite synapses between the cells have been modeled using IP₃ and 2-AG. A mathematical model is used to depict the overall framework of bifurcation and induced Ca²⁺ dynamics. The differences in the presence and disappearance of Ca²⁺ oscillations are partially explained by two subcritical Hopf bifurcation points, according to the results. Communication between the cells occurs through the oscillations of Ca²⁺ concentration. Furthermore, numerical simulations are conducted to confirm the efficacy of the suggested approach. Thus, our findings imply that neuron-astrocyte crosstalk plays a fundamental role in generating a variety of neuronal activities, thereby improving the brain's capacity for information processing.

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来源期刊

Cell Biochemistry and Biophysics 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

7.5 months

期刊介绍： Cell Biochemistry and Biophysics (CBB) aims to publish papers on the nature of the biochemical and biophysical mechanisms underlying the structure, control and function of cellular systems The reports should be within the framework of modern biochemistry and chemistry, biophysics and cell physiology, physics and engineering, molecular and structural biology. The relationship between molecular structure and function under investigation is emphasized. Examples of subject areas that CBB publishes are: · biochemical and biophysical aspects of cell structure and function; · interactions of cells and their molecular/macromolecular constituents; · innovative developments in genetic and biomolecular engineering; · computer-based analysis of tissues, cells, cell networks, organelles, and molecular/macromolecular assemblies; · photometric, spectroscopic, microscopic, mechanical, and electrical methodologies/techniques in analytical cytology, cytometry and innovative instrument design For articles that focus on computational aspects, authors should be clear about which docking and molecular dynamics algorithms or software packages are being used as well as details on the system parameterization, simulations conditions etc. In addition, docking calculations (virtual screening, QSAR, etc.) should be validated either by experimental studies or one or more reliable theoretical cross-validation methods.