A fascinating story of influence and communication within our bodies is the complex dance that occurs between serotonin and the gut microbiota. Enterochromaffin (EC) cells create almost 90% of the neurotransmitter and hormone serotonin, which is produced in the gut. These specialized cells function as luminal sensors, modifying serotonin levels in response to elevated intestinal lumen pressure.
The gut microbiome, a bustling community of microorganisms residing in our digestive tract, plays a pivotal role. Serotonin and gut flora communicate in both directions, which helps to maintain a delicate balance in our physiological functions. Gut-dwelling bacteria are sensitive to serotonin, which affects the expression of genes involved in motility, adhesion, biofilm formation, and pathogenicity.
Butyric acid, a microbial byproduct of fermentation, emerges as a key player in serotonin production. This fatty acid increases the expression of tryptophan hydroxylase 1 (Tph1) in EC cells, which in turn stimulates the transcription factor ZBP89 and promotes serotonin production. Short-chain fatty acids (SCFAs) including butyrate, propionate, and acetate from the gut microbiota increase Tph1 levels, which in turn promote the generation of serotonin.
Beyond the stomach, serotonin signaling continues to have an impact. The microbiome has the ability to affect brain serotonin levels through the gut-brain axis, a bidirectional communication pathway. The microbiome influences serotonin transporters, receptors, and production, demonstrating the connection between the gut and the brain.
The dynamic link between serotonin and the gut microbiome is highlighted by the fact that changes in serotonin levels can modify the microbial makeup of the colonic environment. Serotonin stimulates gut bacteria to display species-specific responses that impact their growth and make the environment more prone to conditions like colitis. Changes in serotonin transmission can modify the composition of the gut microbiome itself
Serotonin is a multifaceted actor in gut health, controlling a variety of physiological functions. Serotonin has a wide-ranging effect on everything from gastrointestinal motility to mood disorders. We find a complex web of relationships that influence our wellbeing as we explore the intricacies of serotonin and the gut microbiome. Comprehending this complex link provides opportunities to investigate therapeutic interventions and customized health approaches, wherein the balance between serotonin and the microbiome is essential for a healthy and vibrant gut ecosystem.
Explore further :
The Relationship Between the Serotonin Metabolism, Gut-Microbiota and the Gut-Brain Axis : http://tinyurl.com/yb2rz754
Serotonin in the gut: Blessing or a curse : http://tinyurl.com/yk2dz6ap
Indigenous Bacteria from the Gut Microbiota Regulate Host Serotonin Biosynthesis : http://tinyurl.com/53ffh79a
Gut microbes promote colonic serotonin production through an effect of short-chain fatty acids on enterochromaffin cells : http://tinyurl.com/2c69xjjd
Towardย manipulating serotonin signaling via the microbiotaโgutโbrain axis : http://tinyurl.com/2ufrh3zr
