Computational modelling of TNFα related pathways regulated by neuroinflammation, oxidative stress and insulin resistance in neurodegeneration

Sasidharakurup, Hemalatha; Diwakar, Shyam

doi:10.1007/s41109-020-00307-w

Cited by 5 publications

(1 citation statement)

References 90 publications

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“…The stochastic variations in any of the reactant concentrations in the pathway could determine the probability of occurrence of other dependent reactions. Given initial concentration for every species in the pathway, concentration time series data were generated [31,[41][42][43].…”

Section: Discussionmentioning

confidence: 99%

Mathematical Modelling of Complex Cellular Networks of Autophagy—Lysosomal Pathway in Neurodegeneration

Sasidharakurup

Menon

Sabeen

et al. 2021

Advances in Intelligent Systems and Computing

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Systems biology modelling helps to develop large complex biochemical pathways of disease networks including biochemical components and the interactions towards a multi-scale understanding of complex diseases. Mathematical modelling with the applications of biochemical systems theory using time-dependent ordinary differential equations and reaction rate equations helps to predict emergent behaviour of networks under different cellular conditions. In this study, the biochemical networks of autophagy-lysosomal pathway and role of alpha synuclein in Alzheimer's and Parkinson's disease have been modelled by using biochemical systems theory. The results show lysosome and autophagosome dysregulation by the action of amyloid beta and lipofuscin aggregation as a major contributor to Alzheimer's onset. The modelling allows comparing the interactions between biochemical species in both normal and diseased conditions and predicting new biomarkers to find potential targets which can help in early diagnosis and disease progression over time. Model predictions indicated activated calpain led to lysosomal leakage and activation of pro-apoptotic caspases that may result in irreversible cell damage. Simulations indicated dysfunctions in the degradation process of aggregated αS result in the formation of excess Lewy bodies, a known cause leading to dopaminergic cell death in Parkinson's. From the simulations, the model implicated lipofuscin aggregates, Lysosome-associated membrane protein 2 (LAMP2A), deglycase DJ-1, vesicular monoamine transporter 2 (VMAT-2), ubiquitinated proteins, amyloid beta and α-synuclein aggregates as the major network components involved in the deregulation of protein degradation that may be used as biomarkers for Alzheimer's and Parkinson's disease.

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Section: Discussionmentioning

confidence: 99%

Mathematical Modelling of Complex Cellular Networks of Autophagy—Lysosomal Pathway in Neurodegeneration

Sasidharakurup

Menon

Sabeen

et al. 2021

Advances in Intelligent Systems and Computing

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Quantitative systems pharmacology model of α‐synuclein pathology in Parkinson's disease‐like mouse for investigation of passive immunotherapy mechanisms

Ivanova,

Karelina

2024

CPT Pharmacom & Syst Pharma

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The main pathophysiological hallmark of Parkinson's disease (PD) is the accumulation of aggregated alpha‐synuclein (αSyn). Microglial activation is an early event in PD and may play a key role in pathological αSyn aggregation and transmission, as well as in clearance of αSyn and immunotherapy efficacy. Our aim was to investigate how different proposed mechanisms of anti‐αSyn immunotherapy may contribute to pathology reduction in various PD‐like mouse models. Our mechanistic model of PD pathology in mouse includes αSyn production, aggregation, degradation and distribution in neurons, secretion into interstitial fluid, internalization, and subsequent clearance by neurons and microglia. It describes the influence of neuroinflammation on PD pathogenesis and dopaminergic neurodegeneration. Multiple data from mouse PD models were used for calibration and validation. Simulations of anti‐αSyn passive immunotherapy adequately reproduce preclinical data and suggest that (1) immunotherapy is efficient in the reduction of aggregated αSyn in various models of PD‐like pathology; (2) prevention of aSyn spread only does not reduce the pathology; (3) a decrease in microglial inflammatory activation and aSyn aggregation may be alternative therapy approaches in PD‐like pathology.

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Computational Modelling of Glucocerebrosidase Signalling Pathways in Parkinson’s Disease

Sasidharakurup,

Viswanadh,

Sasidharan

et al. 2023

Lecture Notes in Networks and Systems

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Computational modelling of TNFα related pathways regulated by neuroinflammation, oxidative stress and insulin resistance in neurodegeneration

Cited by 5 publications

References 90 publications

Mathematical Modelling of Complex Cellular Networks of Autophagy—Lysosomal Pathway in Neurodegeneration

Mathematical Modelling of Complex Cellular Networks of Autophagy—Lysosomal Pathway in Neurodegeneration

Quantitative systems pharmacology model of α‐synuclein pathology in Parkinson's disease‐like mouse for investigation of passive immunotherapy mechanisms

Computational Modelling of Glucocerebrosidase Signalling Pathways in Parkinson’s Disease

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