Overview
This study reveals how lipid metabolism dysregulation promotes colorectal cancer liver metastasis (CRLM) through a novel YTHDF3-mediated mechanism involving m 6 A RNA modification and liquid-liquid phase separation.
Key Findings
Lipid Metabolism & Clinical Impact: • Significant lipid accumulation observed in CRLM tissues with upregulated lipid synthesis and downregulated catabolism • High YTHDF3 expression correlated with poor survival (26 vs. 44 months median survival) • High-fat diet accelerated tumor progression and metastasis in mouse models
Molecular Mechanism: • Lipid deposition enhances YTHDF3 expression through dual mechanisms: transcriptional activation via STAT3-YAP pathway and post-translational stabilization • YTHDF3 promotes m 6 A modification of PPARα mRNA, leading to its degradation • Reduced PPARα decreases fatty acid oxidation metabolites (acetyl-L-carnitine and β-hydroxybutyrate) • β-hydroxybutyrate normally induces β-hydroxybutyrylation of YTHDF3, promoting its degradation—this protective feedback is disrupted by lipid accumulation
Novel LLPS Discovery: • Lipid deposition dramatically increases YTHDF3 liquid-liquid phase separation and condensate formation • Enhanced YTHDF3 co-localization with lipid droplets drives metastatic progression • N-terminal domain (1-416 aa) essential for phase separation dynamics
Therapeutic Implications
• Time-restricted feeding and PPARα agonist fenofibrate significantly inhibited metastasis • Targeting the YTHDF3-PPARα axis represents a promising therapeutic strategy • Metabolic interventions to reduce lipid deposition may prevent CRLM
Significance
This research establishes a critical link between dietary lipids, epigenetic regulation, and cancer metastasis, offering new mechanistic insights and therapeutic targets for preventing colorectal cancer liver metastasis through metabolic modulation.
Protein & Cell
Experimental study
Not applicable
Lipid deposition promotes YTHDF3-mediated m6A modification of PPARα to facilitate liver metastasis of colorectal cancer
5-Nov-2025