Cigarette smoking upregulates vascular expression of the novel atherosclerosis risk factor ADAMTS-7

  1. Carla Abrahamian
  2. M. Amin Sharifi
  3. Tan An Dang
  4. Aldo Moggio
  5. Michael Winkler
  6. Johannes Riechel
  7. Hanna Winter
  8. Baiba Vilne
  9. Simone Kraut
  10. Stefan Hadzic
  11. Cheng-Yu Wu
  12. Irina Pugach
  13. Marija Gredic
  14. Mirja Fassbender
  15. Julia Hinterdobler
  16. Julia Werner
  17. Nikita Panyam
  18. Moritz von Scheidt
  19. Zouhair Aherrahrou
  20. Yvonne Döring
  21. Christian Graesser
  22. Lars Maegdefessel
  23. Norbert Weissmann
  24. Heribert Schunkert
  25. Hendrik B. Sager
  26. Thorsten Kessler
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Abstract

Background

Cigarette smoking is an established risk factor for coronary artery disease (CAD) and myocardial infarction. Genetic variants in the extracellular matrix protease ADAMTS-7 were also identified to increase CAD risk. Notably, ADAMTS7 represents the only genomic locus that revealed a gene-environment interaction with smoking. The underlying mechanisms of this interaction remain unclear.

Methods and Results

In a murine model, cigarette smoke exposure (CSE) led to an upregulation of vascular ADAMTS7 expression in wild type (WT) C57BL/6J mice. ADAMTS7 upregulation was also found in carotid plaques from ever-smokers undergoing carotid endarterectomy in humans. Bulk RNA sequencing of lung tissues from WT mice exposed to CS revealed a downregulation of 20 and an upregulation of 173 transcripts. Among upregulated transcripts in smoking-exposed lungs, we found C-C motif chemokine ligand 17 (CCL17), which was likewise upregulated in plasma from smoking mice and humans. In vitro , recombinant CCL17 upregulated ADAMTS7 expression in primary vascular smooth muscle cells (VSMC), which was inhibited secondary to silencing of CCL17’s bona fide receptor C-C Motif Chemokine Receptor 4 (CCR4). Conditioned media from CCL17-stimulated VSMC lacking ADAMTS-7 showed reduced release of inflammatory cytokines by endothelial cells (EC), reduced EC activation, and monocyte-to-EC adhesion. In proatherogenic Apoe -/- mice exposed to CS, more numerous neutrophils, inflammatory monocytes, and macrophages were found in atherosclerotic plaques as compared to room air exposition. This effect was blunted in Apoe -/- Adamts7 -/- mice.

Conclusions

For the first time, our findings link CSE to vascular inflammation via CCL17-mediated upregulation of the CAD risk factor ADAMTS7 and provide a mechanistic explanation for the gene-environment interaction between CS and ADAMTS7 in CAD. Targeting ADAMTS-7 might be a promising therapeutic strategy irrespective of smoking status.

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  1. Version published to 10.1101/2025.10.28.685237 on bioRxiv