Litcius/Paper detail

Interaction of the Vagus Nerve and Serotonin in the Gut–Brain Axis

Young Keun Hwang, Jae Sang Oh

2025International Journal of Molecular Sciences95 citationsDOIOpen Access PDF

Abstract

The gut-brain axis represents an important bidirectional communication network, with the vagus nerve acting as a central conduit for peripheral signals from the various gut organs to the central nervous system. Among the molecular mediators involved, serotonin (5-HT), synthesized predominantly by enterochromaffin cells in the gut, plays a pivotal role. Gut-derived serotonin activates vagal afferent fibers, transmitting signals to the nucleus tractus solitarius (NTS) and modulating serotonergic neurons in the dorsal raphe nucleus (DRN) as well as the norepinephrinergic neurons in the locus coeruleus (LC). This interaction influences emotional regulation, stress responses, and immune modulation. Emerging evidence also highlights the role of microbial metabolites, particularly short-chain fatty acids (SCFAs), in enhancing serotonin synthesis and vagal activity, thereby shaping gut-brain communication. This review synthesizes the current knowledge on serotonin signaling, vagal nerve pathways, and central autonomic regulation, with an emphasis on their implications for neuropsychiatric and gastrointestinal disorders. By elucidating these pathways, novel therapeutic strategies targeting the gut-brain axis may be developed to improve mental and physical health outcomes.

Topics & Concepts

SerotonergicDorsal raphe nucleusSerotoninNeuroscienceVagus nerveLocus coeruleusEnterochromaffin cellGut–brain axisDorsal motor nucleusRaphe nuclei5-HT receptorEnteric nervous systemVagus nerve stimulationBiologyRapheCentral nervous systemParasympathetic nervous systemAutonomic nervous systemGut floraStimulationEndocrinologyReceptorImmunologyHeart rateBlood pressureBiochemistryGastrointestinal motility and disordersInfant Health and DevelopmentGut microbiota and health