Salient

A Paracrine Dietary Lipid Axis Constrains Antitumor Immunity in Liver Cancer

Ciobu, N., Kumari, R., Kumar, J. S., Balaseviciute, U., Iftesum, M., Mitchell, J., Ruiz, J., Flowers, S., Nishikawa, K., Cano-Segarra, G., et al.
10.64898/2026.06.25.734592 · was preprinted
biomedical
Surfaced because: matches the platform's topic region.
relevance 0.33 openness 0.00 novelty 0.33 attention 0.73

Abstract

Overnutrition-related liver dysfunction and cancer are increasingly prevalent and highly resistant to immunotherapy. While metabolic dysregulation is a hallmark of hepatocellular carcinoma (HCC), how nutrient overload impairs antitumor immunity remains unclear. Here, we show that short-term Western diet (WD) exposure drives near-complete loss of CD8 T cell infiltration and antitumor function in HCC. We identify dietary linoleic acid (LA), the most abundant {omega}-6 fatty acid, as the dominant immunosuppressive driver. Cancer cell-restricted FADS2-mediated desaturation of LA to longer-chain {omega}-6 PUFAs drives their accumulation in the tumor interstitial fluid, suppressing infiltrating CD8 T cells via lipid peroxidation. FADS2 inhibition restores CD8 T cell function and sensitizes WD-driven HCC to PD-1-based immunotherapy. Further, the Parkinsons disease-associated deglycase DJ-1 protects LA-handling proteins from methylglyoxal-mediated glycation, sustaining tumoral immunosuppressive PUFA production. Across multiple independent human MASLD-HCC cohorts, LA metabolic activity correlates with CD8 T cell impairment, immune exclusion, and immunotherapy resistance. Overall, these studies identify a dietary lipid axis as a therapeutically actionable vulnerability in WD-associated HCC.

Lifecycle

Discussion

Moderated digest of third-party discussion on Bluesky — substantive endorsement and critique.

  • RRID Robot @rridrobot.bsky.social · 120 followers neutral

    The authors included RRIDs in their in bioRxiv paper! Thanks for making your methods matter! #reproducibility #methodsmatter #BetterScience

    ♡ 1 ⇄ 0 💬 0 view on Bluesky ↗