Affordable Access

High fat intake sustains sorbitol intolerance after antibiotic-mediated Clostridia depletion from the gut microbiota

Authors
  • Lee, Jee-Yon
  • Tiffany, Connor R
  • Mahan, Scott P
  • Kellom, Matthew
  • Rogers, Andrew WL
  • Nguyen, Henry
  • Stevens, Eric T
  • Masson, Hugo LP
  • Yamazaki, Kohei
  • Marco, Maria L
  • Eloe-Fadrosh, Emiley A
  • Turnbaugh, Peter J
  • Bäumler, Andreas J
Publication Date
Feb 01, 2024
Source
eScholarship - University of California
Keywords
License
Unknown
External links

Abstract

Carbohydrate intolerance, commonly linked to the consumption of lactose, fructose, or sorbitol, affects up to 30% of the population in high-income countries. Although sorbitol intolerance is attributed to malabsorption, the underlying mechanism remains unresolved. Here, we show that a history of antibiotic exposure combined with high fat intake triggered long-lasting sorbitol intolerance in mice by reducing Clostridia abundance, which impaired microbial sorbitol catabolism. The restoration of sorbitol catabolism by inoculation with probiotic Escherichia coli protected mice against sorbitol intolerance but did not restore Clostridia abundance. Inoculation with the butyrate producer Anaerostipes caccae restored a normal Clostridia abundance, which protected mice against sorbitol-induced diarrhea even when the probiotic was cleared. Butyrate restored Clostridia abundance by stimulating epithelial peroxisome proliferator-activated receptor-gamma (PPAR-γ) signaling to restore epithelial hypoxia in the colon. Collectively, these mechanistic insights identify microbial sorbitol catabolism as a potential target for approaches for the diagnosis, treatment, and prevention of sorbitol intolerance.

Report this publication

Statistics

Seen <100 times