Anxa1 in smooth muscle cells protects against acute aortic dissection

Aims Acute aortic dissection (AAD) is a life-threatening disease with high morbidity and mortality. Previous studies have showed that vascular smooth muscle cell (VSMC) phenotype switching modulates vascular function and AAD progression. However, whether an endogenous signalling system that protects AAD progression exists remains unknown. Our aim is to investigate the role of Anxa1 in VSMC phenotype switching and the pathogenesis of AAD. Methods and results We first assessed Anxa1 expression levels by immunohistochemical staining in control aorta and AAD tissue from mice. A strong increase of Anxa1 expression was seen in the mouse AAD tissues. In line with these findings, micro-CT scan results indicated that Anxa1 plays a role in the development of AAD in our murine model, with systemic deficiency of Anxa1 markedly progressing AAD. Conversely, administration of Anxa1 mimetic peptide, Ac2-26, rescued the AAD phenotype in Anxa1(-/-) mice. Transcriptomic studies revealed a novel role for Anxa1 in VSMC phenotype switching, with Anxa1 deficiency triggering the synthetic phenotype of VSMCs via down-regulation of the JunB/MYL9 pathway. The resultant VSMC synthetic phenotype rendered elevated inflammation and enhanced matrix metalloproteinases (MMPs) production, leading to augmented elastin degradation. VSMC-restricted deficiency of Anxa1 in mice phenocopied VSMC phenotype switching and the consequent exacerbation of AAD. Finally, our studies in human AAD aortic specimens recapitulated key findings in murine AAD, specifically that the decrease of Anxa1 is associated with VSMC phenotype switch, heightened inflammation, and enhanced MMP production in human aortas. Conclusions Our findings demonstrated that Anxa1 is a novel endogenous defender that prevents AAD by inhibiting VSMC phenotype switching, suggesting that Anxa1 signalling may be a potential target for AAD pharmacological therapy.

Automated summary

The study aims to investigate the role of Anxa1 in vascular smooth muscle cell (VSMC) phenotype switching and the pathogenesis of acute aortic dissection (AAD). Findings suggest that Anxa1 is a novel endogenous defender against AAD by inhibiting VSMC phenotype switching, highlighting its potential as a target for pharmacological therapy. Additionally, transcriptomic and human AAD aortic specimens studies supported the key role of Anxa1 in AAD development.