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This research investigates how gut lactate impacts Ruminococcus to improve Crohn's disease outcomes.

April 10, 2026Open Access

Gut Lactate Boosts Ruminococcus via Histone Lactylation to Mediate Time‐Restricted Feeding Protection in Crohn's Disease

Key Points

This research investigates how gut lactate impacts Ruminococcus to improve Crohn's disease outcomes.
Examined the role of time-restricted feeding (TRF) on gut microbiota.
Analyzed the histone lactylation-SLC9A3 signaling pathway.
Observed the effects on inflammation and fibrosis in Crohn’s disease model.
TRF increased SCFA-producing Ruminococcus levels.
Histone lactylation was linked to improved gut barrier integrity.
Enhanced mitochondrial β-oxidation was noted in epithelial cells.

Abstract

Collectively, TRF enriches SCFA-producing Ruminococcus through a gut lactate-driven histone lactylation-SLC9A3 signaling axis, thereby alleviating inflammation and fibrosis in Crohn's disease under preventive conditions. Ruminococcus-derived SCFA further enhances epithelial mitochondrial β-oxidation and activates HIF-1α-dependent signaling pathways to strengthen the barrier integrity. This study provides a compelling mechanistic foundation for the clinical exploration of TRF as a therapeutic dietary strategy for patients with CD.

Gut Lactate Boosts Ruminococcus via Histone Lactylation to Mediate Time‐Restricted Feeding Protection in Crohn's Disease

Key Points

Abstract

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