Litcius/Paper detail

Fueling the fire: colonocyte metabolism and its effect on the colonic epithelia

Manuel Martínez-Ruiz, Michael S. Robeson, Brian D. Piccolo

2025Critical Reviews in Food Science and Nutrition12 citationsDOI

Abstract

Colonic permeability is a major consequence of dysbiosis and diseases affecting the colon, further contributing to inflammation and extraintestinal diseases. Recent advances have shed light on the association between colonocyte energy utilization and the mechanisms that support epithelial function and homeostasis. One unifying theme is the induction of colonocyte hypoxia, driven by the aerobic oxidation of microbial-derived butyrate, as a critical factor promoting multiple cellular processes that support intestinal barrier function, mucus secretion, and the maintenance of synergistic luminal microbes. Particular attention will be focused on experimental evidence supporting beta-oxidation via activation of peroxisome proliferators-activated receptor-γ (PPAR) and upregulation and activation of processes that promote barrier function by hypoxia-inducible factor (HIF) signaling. Growing evidence suggests that colonocyte energy utilization is tightly regulated and switches between beta-oxidation of butyrate and anaerobic glycolysis, the latter being associated with several disease states. As most of the primary literature associated with colonocyte energy utilization has focused on adult models, evidence supporting butyrate oxidation in the neonatal gut is lacking. Thus, this review details the current state of knowledge linking colonocyte substrate utilization to mechanisms supporting gut health, but also highlights the counterindications of colonic butyrate availability and utilization in developmental periods.

Topics & Concepts

MetabolismChemistryBiochemistryDiet and metabolism studiesMicroscopic ColitisGut microbiota and health