Obesity promotes conserved inflammatory and metabolic transcriptional programs in mouse and human colon tumors

  1. Elaine M. Glenny
  2. Tengda Lin
  3. Victoria M. Bandera
  4. Babak Mirminachi
  5. Saratchandra S. Khumukcham
  6. Biljana Gigic
  7. Christy A. Warby
  8. Olena Aksonova
  9. Michael F. Coleman
  10. Alessandro Carpanese
  11. Calista Busch
  12. Caroline Himbert
  13. Jennifer Ose
  14. David A. Nix
  15. Kenneth Boucher
  16. Peter Schirmacher
  17. Ildiko Strehli
  18. Sheetal Hardikar
  19. Jessica N. Cohan
  20. Jolanta Jedrzkiewicz
  21. Alexander Brobeil
  22. Martin A. Schneider
  23. Christoph Kahlert
  24. Erin M. Siegel
  25. Doratha A. Byrd
  26. Adetunji T. Toriola
  27. David Shibata
  28. Christopher I. Li
  29. Jane C. Figueiredo
  30. Aik Choon Tan
  31. Jatin Roper
  32. Cornelia M. Ulrich
  33. Stephen D. Hursting
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Abstract

Background

The global prevalence of obesity, an established risk and progression factor for colon cancer, is high and rising. Unfortunately, the mechanisms underlying the obesity-colon cancer association are incompletely understood, and new molecular targets enabling more effective intervention strategies to break the obesity-colon cancer link are urgently needed.

Objective

This study integrated RNA sequencing data from mouse and human colon tumor samples, as well as human adipose samples, to rigorously establish obesity-associated transcriptomic signatures conserved between the two species.

Methods

We employed a mouse colon cancer model with colonoscopy-guided orthotopic transplantation of syngeneic Apc-null;KrasG12D/+;Trp53-null;Smad4-null;tdTomato colon tumor organoids. Epithelial cell adhesion molecule (EpCAM)-positive cells from murine tumors, and 193 human colon tumors and 188 human mesenteric adipose tissue samples from the ColoCare cohort underwent transcriptomic analyses.

Results

Diet-induced obesity reduced survival in the mouse model of colon cancer. Integrated transcriptomic analyses of EpCAM-positive murine tumor cells and bulk human tumors revealed obesity-driven enrichment of inflammation and metabolic pathways, including upregulation of genes involved in innate immune sensing ( TLR2 , MYD88 , IRF4 ) and tumor microenvironment remodeling ( MMP9 , TGFB1 , SERPINE1 ). Analysis of paired mesenteric visceral adipose tissue and tumor samples from the ColoCare cohort indicated that obesity amplifies inflammatory signaling pathways through unique adipose ligand-tumor receptor interactions.

Conclusions

These results establish obesity-associated adipose tissue dysregulation as a key inter-tissue modulator of biology, with concordant cross-species effects on tumor cell-intrinsic inflammatory and metabolic programs.

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  1. Version published to 10.1101/2025.06.19.660576v1 on bioRxiv