Home Research Feeds Enteric nervous system damage caused by abnormal intestinal butyrate metabolism may lead to functional constipation

Enteric nervous system damage caused by abnormal intestinal butyrate metabolism may lead to functional constipationOriginal paper

Researched by:

  • Karen Pendergrass

Last Updated: 2026-07-04

Karen Pendergrass
Karen Pendergrass

Karen Pendergrass is a microbiome researcher specializing in microbiome-targeted interventions (MBTIs). She systematically analyzes scientific literature to identify microbial patterns, develop hypotheses, and validate interventions. As the founder of the Microbiome Signatures Database, she bridges microbiome research with clinical practice. In 2012, based on her own investigative research, she became the first documented case of FMT for Celiac Disease, four years before the first published case study.

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Location
China
Sample Site
Feces
Species
Homo sapiens

What was studied?

This study investigated the role of gut microbiota and their metabolites, particularly short-chain fatty acids (SCFAs), in the pathogenesis of functional constipation (FC). The researchers used shotgun metagenomic sequencing of gut microbiota alongside serum SCFA analysis to examine relationships between microbial composition, butyric acid levels, and defecation frequency. They then tested the direct effects of butyrate on intestinal neurons using an in vitro mouse model to explore a possible mechanistic link between microbial butyrate metabolism and enteric nervous system damage.

Who was studied?

The primary cohort consisted of 460 Chinese women with differing defecation frequencies, who underwent shotgun metagenomic sequencing and serum SCFA measurement. Findings were verified in an independent cohort of 6 patients with functional constipation and 6 controls. In addition, mouse intestinal neurons were used in vitro to test the cellular effects of butyrate exposure at concentrations of 0.1, 0.5, 1, and 2.5 mM.

What were the most important findings?

The abundance of Fusobacterium varium, a butyric acid-producing bacterium, was positively correlated with defecation frequency, while serum butyric acid concentration was negatively correlated with defecation frequency. These findings were confirmed in the independent validation cohort. In vitro, intestinal neurons treated with 0.5 mM butyrate proliferated better than neurons exposed to other tested concentrations, with significant differences observed in cell cycle and oxidative phosphorylation signaling pathways.

What are the greatest implications of this study?

The findings suggest that abnormal butyrate metabolism, including altered production by gut bacteria such as Fusobacterium varium and shifts in serum butyrate levels, may damage the enteric nervous system and contribute to functional constipation. This points to butyrate-modulating microbes and serum butyrate concentration as potential biomarkers or targets for understanding and managing FC. It also highlights that butyrate's effect on enteric neurons is concentration-dependent, meaning both insufficient and excessive levels may be relevant to disease mechanisms.

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