Serotonin Signaling in the Enteric Nervous System and Connection to Autism Spectrum Disorder: A Translational Mathematical Model

Serotonin Signaling in the Enteric Nervous System and Connection to Autism Spectrum Disorder: A Translational Mathematical Model

While the causes of autism spectrum disorder (ASD) remain unclear, some studies have shown that serotonin-mediated effects on the enteric nervous system (ENS) correlate with an ASD-like behavioral phenotype in mice. Introduced here is a mathematical model of interactions between gut serotonin and it...

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Bibliographic Details
Published in:Applied sciences Vol. 13; no. 5; p. 2970
Main Author: Kareva, Irina
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-02-2023
Subjects:
Age
Analysis
Autism
autism spectrum disorder
Autistic children
Behavior
Central nervous system
Enteric nervous system
Experiments
Growth factors
Hyperactivity
hyperserotonemia
Hypoplasia
Hypotheses
mathematical model
Mathematical models
Nervous system
Phenols
Phenotypes
Physiology
Serotonin
Simulation
vagus nerve
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Summary:While the causes of autism spectrum disorder (ASD) remain unclear, some studies have shown that serotonin-mediated effects on the enteric nervous system (ENS) correlate with an ASD-like behavioral phenotype in mice. Introduced here is a mathematical model of interactions between gut serotonin and its impact on the ENS. The model was used to identify three key factors that affect ENS size, namely, serotonin production, its clearance, and its ability to act as a growth factor for the ENS. The model was used to reproduce experimentally reported results from a mouse model by Margolis et al. (2016), which connected serotonin-mediated ENS hypoplasia to an ASD phenotype. The proposed mathematical model was used to scale the quantified relationship from mice to humans to show how the combination of these three factors can translate to a quantifiable metric that could potentially be correlated to the ASD spectrum. A detailed discussion of how ENS hypoplasia could mechanistically affect CNS activity concludes this paper.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13052970