The role of calcium dynamics with amyloid beta on neuron-astrocyte coupling

JETHANANDANİ, Hemlata; JHA, Brajesh Kumar; UBALE, Manisha

doi:10.53391/mmnsa.1398320

Mathematical Modelling and Numerical Simulation With Applications

2023

DOI: 10.53391/mmnsa.1398320

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The role of calcium dynamics with amyloid beta on neuron-astrocyte coupling

Hemlata JETHANANDANİ,

Brajesh Kumar JHA,

Manisha UBALE

Abstract: Amyloid beta ($A\beta$) plaques are associated with neurodegenerative diseases such as Alzheimer's disease. Due to the involvement of $A\beta$ plaques in the functioning of the brain; cognitive decline disrupts calcium homeostasis in nerve cells and causes abnormal calcium ions ($Ca^{2+}$) signaling patterns. In consequence, there is enhanced neuronal excitability, compromised synaptic transmission, and decreased astrocytic function. Neuron-astrocyte coupling through calcium dynamics with different neuronal fu… Show more

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2024

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Cited by 6 publications

References 40 publications

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A Comprehensive Fuzzy Model for Understanding Neuronal Calcium Distribution in Presence of VGCC, Na+/Ca2+ Exchanger, Buffer, and ER Fluxes

Jha,

Bhattacharyya

2024

Cell Biochem Biophys

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Free Calcium ions in the cytosol are essential for many physiological and physical functions. The free calcium ions are commonly regarded as a second messenger, are an essential part of brain communication. Numerous physiological activities, such as calcium buffering and calcium ion channel flow, etc. influence the cytosolic calcium concentration. In light of the above, the primary goal of this study is to develop a model of calcium distribution in neuron cells when a Voltage-Gated Calcium Channel and Sodium Calcium Exchanger are present. As we know, decreased buffer levels and increased calcium activity in the Voltage-Gated Calcium Channel and Sodium Calcium Exchanger lead to Alzheimer's disease. Due to these changes, the calcium diffusion in that location becomes disrupted and impacted by Alzheimer's disease. The model has been constructed by considering key factors like buffers and ER fluxes when Voltage-Gated Calcium Channels and Sodium Calcium Exchangers are present. Based on the physiological circumstances of the parameters, appropriate boundary conditions have been constructed in the fuzzy environment. This model is considered a fuzzy boundary value problem with the source term and initial boundary conditions are modeled by triangular fuzzy functions. In this, paper we observed the approximate solution of the mathematical model which was investigated by the fuzzy undetermined coefficient method. The solution has been performed through MATLAB and numerical results have been computed using simulation. The observation made that the proper operation of the Voltage-Gated Calcium Channel and Sodium Calcium Exchanger is critical for maintaining the delicate equilibrium of calcium ions, which regulates vital cellular activities. Dysregulation of Voltage-Gated Calcium Channel and Sodium Calcium Exchanger activity has been linked to neurodegenerative illnesses like Alzheimer's disease.

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A Comprehensive Fuzzy Model for Understanding Neuronal Calcium Distribution in Presence of VGCC, Na+/Ca2+ Exchanger, Buffer, and ER Fluxes

Jha,

Bhattacharyya

2024

Cell Biochem Biophys

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

Jethanandani,

Jha

2024

Cell Biochem Biophys

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Deciphering two-dimensional calcium fractional diffusion of membrane flux in neuron

Vatsal,

Jha,

Singh

2024

J. Appl. Math. Comput.

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The role of calcium dynamics with amyloid beta on neuron-astrocyte coupling

Cited by 6 publications

References 40 publications

A Comprehensive Fuzzy Model for Understanding Neuronal Calcium Distribution in Presence of VGCC, Na+/Ca2+ Exchanger, Buffer, and ER Fluxes

A Comprehensive Fuzzy Model for Understanding Neuronal Calcium Distribution in Presence of VGCC, Na+/Ca2+ Exchanger, Buffer, and ER Fluxes

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

Deciphering two-dimensional calcium fractional diffusion of membrane flux in neuron

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