Galectin-1 induces macrophage immunometabolic reprogramming, modulates T cell immunity and attenuates atherosclerotic plaque formation

  1. Ya Li
  2. Julian Leberzammer
  3. Xavier Blanchet
  4. Rundan Duan
  5. Michael Lacy
  6. Vasiliki Triantafyllidou
  7. Veit Eckardt
  8. Eva Briem
  9. Anna Simone Jung
  10. Rui Su
  11. Joel Guerra
  12. Yvonne Jansen
  13. Michael Hristov
  14. Wolfgang Enard
  15. Jürgen Bernhagen
  16. Christian Weber
  17. Dorothee Atzler
  18. Alexander Bartelt
  19. Yvonne Doring
  20. Donato Santovito
  21. Herbert Kaltner
  22. Anna-Kristin Ludwig
  23. Philipp von Hundelshausen
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Abstract

Background and aims

Atherosclerosis is a chronic immunometabolic disease driven by lipid accumulation and immune cell infiltration. Macrophages and T cells play key roles throughout plaque development. Galectin-1 (Gal-1), a glycan-binding protein, modulates immune functions in these cells and has been reported to attenuate atherosclerosis, though its mechanisms remain incompletely understood. Here, we investigated the effects of Gal-1 on macrophages and T cells during plaque formation.

Methods

Effects of Gal-1 on atherosclerosis, macrophages and T cells during lesion formation were studied in Apoe −/− mice treated with recombinant Gal-1. Complementary mouse peritoneal foam cell and in vitro macrophage and T cell cultures experiments were performed to study T cell differentiation, macrophage function, polarization end energy metabolism. The impact of Gal-1 on human macrophages was further evaluated in endarterectomy specimens.

Results

Gal-1 treatment reduced lesion size and increased circulating IL-10 levels, inversely correlating with plaque burden. Unexpectedly, IL-10 neutralization also mitigated atherosclerosis, indicating that its action is at least partially IL-10–independent. In plaques, Gal-1 promoted anti-inflammatory macrophage phenotypes, mirrored by a quiescent metabolic and anti-inflammatory profile in foamy macrophages ex vivo. The use of the Gal-1 E71Q variant revealed that these effects were only partly dependent on glycan binding. Beyond IL-10, Gal-1 reshaped cytokine profiles by increasing IL-17, IL-22, and IL-23, consistent with a macrophage-driven regulatory Th17 response, alongside higher frequencies of IL-10–producing and regulatory T cells.

Conclusion

Gal-1 protects against atherosclerosis associated with reprogramming macrophages and tuning T cell immunity through glycan-dependent and –independent pathways.

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  1. Version published to 10.1101/2025.11.21.689721 on bioRxiv