Interleukin-6 elevates thrombosis via pro-coagulant phospholipids from platelet 12-lipoxygenase in rheumatoid arthritis

  1. Daniela O Costa
  2. Stuart T.O Hughes
  3. Robert H. Jenkins
  4. Ana Cardus Figueras
  5. Majd B Protty
  6. Victoria J Tyrrell
  7. Ali A Hajeyah
  8. Gareth W Jones
  9. James J Burston
  10. Beth Morgan
  11. Federica Monaco
  12. David Hill
  13. Aisling S Morrin
  14. Carol Guy
  15. Alice Bacon
  16. Martin Giera
  17. Rene E M Toes
  18. P Vince Jenkins
  19. Peter W Collins
  20. Ernest Choy
  21. Simon A. Jones
  22. Valerie B O’Donnell
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Abstract

Background

Rheumatoid arthritis (RA) is associated with significantly higher thrombotic risk, which is not yet mechanistically understood. Here, the role of pro-coagulant membranes of platelets and blood cells in driving thrombosis, and their regulation by inflammation was determined using human cohorts and genetically-modified mice.

Methods

Antigen-induced arthritis (AIA) was induced in WT, Il27ra −/− , Il6ra −/− , Alox12 −/− and Alox15 −/− mice. Coagulation and inflammatory markers were measured in plasma. Lipidomics was performed on blood cells and synovium analyzing pro-coagulant enzymatically-oxidized phospholipids (eoxPL) and oxylipins. Two human RA patient cohorts were characterized for eoxPL generation in blood cells, and chronic immune response to eoxPL in vivo.

Results

AIA induction significantly elevated plasma thrombin-antithrombin (TAT) complexes, serum amyloid A (SAA), and eoxPL in blood cells and platelets. Elevations in TATs, SAA and eoxPL were suppressed by genetic deletion of IL-6Ra, while platelet Alox12 deletion prevented TAT and eoxPL increases. This indicates a direct role for IL-6 in elevating thrombosis via upregulation of platelet eoxPL. In contrast, leukocyte Alox15 deletion did not impact TATs or eoxPL. Deletion of either LOX isoform worsened AIA joint pathology. Synovial tissue demonstrated raised eoxPL, but exclusively from Alox15 , indicating leukocyte origin. Thus, both LOX isoforms contribute to AIA, but through different mechanisms. In human RA, platelet counts, and plasma TATs were elevated, and plasma had significantly elevated IgG against eoxPL, indicating patients experience chronic exposure to the lipids in vivo .

Conclusions

Platelet-derived pro-coagulant eoxPL are elevated in human and murine arthritis along with higher coagulation markers. In mice, this was mediated by the IL-6/ Alox12 axis and directly responsible for the higher thrombotic risk. IL-6 plays a central role in driving platelet activation in RA, with the pro-coagulant lipid membrane representing a novel target. Reducing inflammation using DMARDs, particularly targeting IL-6 may reduce platelet pro-coagulant activity and thrombosis risk in RA.

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  1. Version published to 10.1101/2025.03.26.645440v1 on bioRxiv