Platelets are Protective in Early Abdominal Aortic Aneurysm Formation

  1. Hannah M. Russell
  2. Anthony R. Spuzzillo
  3. Tyler W. Benson
  4. James Jaworski
  5. Marc Clément
  6. Yacine Boulaftali
  7. Keith Saum
  8. Kelsey A. Conrad
  9. Deborah A. Howatt
  10. James P. Luyendyk
  11. Scott J. Cameron
  12. Bernhard Nieswandt
  13. Steven R. Steinhubl
  14. Alan Daugherty
  15. Wolfgang Bergmeier
  16. Wei Tong
  17. Scott M. Damrauer
  18. Philip S. Tsao
  19. Ziad Mallat
  20. Todd L. Edwards
  21. Nigel Mackman
  22. A. Phillip Owens
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Abstract

Background

Abdominal aortic aneurysm (AAA) is a disease associated with the pathophysiologic degradation of the tunica media resulting in aortic dilatation, systemic inflammation, and dysregulated hemostasis. Beyond role its role in initiating primary hemostasis, platelets are a source of ROS, inflammatory cytokines and growth factors necessary for angiogenesis and vascular remodeling. Although platelets contribute to the progression of established aneurysms, their role in the initiation of AAA remains undefined.

Methods

Low density lipoprotein receptor deficient ( Ldlr −/− ) mice were examined for platelet accumulation in the angiotensin II (AngII) model of AAA utilizing in vivo labeling techniques. Two platelet antagonists (clopidogrel and aspirin), a thrombin inhibitor (dabigatran) or genetic deficiencies ( protease-activated receptor 4 , P2Y 12 , Lnk ) were administered to AngII-infused mice to determine the role of platelets in initiation of AAA. The effect of platelet depletion was examined in multiple mouse strains of AngII-induced AAA and two additional aneurysm models. PheWAS and meta-analysis was analyzed in humans for platelet gene SNPs associated with AAA.

Results

We show that platelets are recruited rapidly to the aorta after the initiation of AngII infusion. Genetic deficiency of platelet receptors had no effect on abdominal aortic diameter, but augmented rupture-induced death in littermate versus placebo controls during AngII-induced AAA. Moreover, Ldlr −/− mice receiving anti-platelet inhibitors or a thrombin inhibitor also had augmented rupture-induced death. Platelet depletion preceding aneurysm formation resulted in pervasive rupture-induced death in several mouse strains and with three different mouse models of AAA.

Conclusions

Inhibition of platelet function is detrimental in an early expanding aortic lumen resulting in catastrophic rupture and hemodynamic failure in murine AAA models.

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  1. Version published to 10.1101/2024.10.29.616205v1 on bioRxiv