Theoretical Analyzing the Spatial Variability of Pre-Synaptic Vesicle Locations and Its Effect on ATP Concentration Gradients Within the Excitatory Axon Varicosity

Authors

  • Yaroslav R. Nartsissov

    Biomedical Research Group, BiDiPharma GmbH, Siek, Germany
    Author

  • Elena V. Mashkovtseva

    Department of mathematical modeling and statistical analysis of results, Institute of Cytochemistry and Molecular Pharmacology, Moscow, Russian Federation
    Author

  • Olga A. Zagubnaya

    Department of mathematical modeling and statistical analysis of results, Institute of Cytochemistry and Molecular Pharmacology, Moscow, Russian Federation
    Author

  • Leonid A. Ivontsin

    Department of mathematical modeling and statistical analysis of results, Institute of Cytochemistry and Molecular Pharmacology, Moscow, Russian Federation
    Author

DOI:

https://doi.org/10.46991/JISEES.2025.SI1.122

Keywords:

convectional reaction-diffusion, mathematical modelling, pre-synaptic vesicles, axon, mitochondria, ATP

Abstract

It is widely recognized that neurons are highly responsive to fluctuations in oxidative phosphorylation and ATP concentrations. Variations in these factors may contribute to the molecular basis of neurodegenerative diseases. The level of ATP is essential for the process in which neuromediators are loaded into pre-synaptic vesicles, because the creation of a H+-gradient by V-ATPases allows antiporters to transport materials into the vesicles using the secondary active transport. Variations in the amount and positioning of vesicles may contribute to the changes observed in ATP levels within a neuron. To estimate his process, the 3D digital model of an exciatory mouse axon varicosity has been created on the base of experimental data [1]. The present study focuses on three distinct locations where pre-synaptic vesicles can be found. The activity of ATP synthase for a single protein was assessed based on a model that has been previously described. Additionally, the ATPase activities were considered for V-ATPases, Na+, K+-ATPases and cytoplasmic/matrix processes. The rate of adenosine translocator (ANT) was also included as a function of a membrane potential. ATP/ADP concentration gradients were evaluated using the final element method (FEM) in COMSOL Multiphisics Software ver. 5.5. It was found that the location of pre-synaptic vesicles impacts the distribution of ATP levels within a localized area of the neuron.

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Published

2025-10-21

Issue

2025: Special Issue No. 1

Section

Research Article

License

Copyright (c) 2025 Yaroslav R. Nartsissov, Elena V. Mashkovtseva, Olga A. Zagubnaya, Leonid A. Ivontsin (Author)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Theoretical Analyzing the Spatial Variability of Pre-Synaptic Vesicle Locations and Its Effect on ATP Concentration Gradients Within the Excitatory Axon Varicosity. (2025). Journal of Innovative Solutions for Eco-Environmental Sustainability, 122. https://doi.org/10.46991/JISEES.2025.SI1.122

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