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Peritumoral colonic epithelial cell-derived GDF15 sustains colorectal cancer via regulation of glycolysis and histone lactylation

One of the most abundant cellular components of the normal adjacent tissue surrounding colorectal cancer is colonic epithelial cells (CECs); however, little is known about their interactions with tumor cells. Here we found that peritumoral CECs collaborate with cancer cells to orchestrate a pro-carcinogenic niche. In clinical cohort analyses, we show that growth differentiation factor 15 (GDF15) levels increase in normal adjacent tissue, in particular in CECs, at advanced disease and are inversely correlated with survival. Using mouse models, organoids and in vitro approaches, we link GDF15 upregulation to senescence in peritumoral CECs and identify a CEC-derived GDF15-driven metabolic feedback loop fueling tumor survival. We show that GDF15 secretion upregulates the glycolytic enzyme ENO1 in cancer cells, which triggers extracellular lactate release and subsequent lactylation of H4K8 in CECs, augmenting GDF15 transcription. Our findings establish a mode of intercellular crosstalk mediating collaboration between colorectal cancer cells and peritumoral CECs, providing a potential avenue for targeted intervention in colorectal cancer.