Fibrinogen-Bmal1 signaling as a therapeutic target to limit aortic dissection by preserving VSMC contractility
Summary
Aortic dissection (AD) is a life-threatening vascular disease with a high mortality rate. Surgery is essential in the acute phase but carries significant risks, whereas elective surgery during the chronic phase yields better outcomes. However, no pharmacological therapy has been proven effective in slowing AD progression. In our recent pilot clinical study, an association between higher plasma fibrinogen levels and improved clinical outcomes was observed in AD patients, suggesting a potent
Content
# Fibrinogen-Bmal1 signaling as a therapeutic target to limit aortic dissection by preserving VSMC contractility
*Published: 2026 Mar 19*
Aortic dissection (AD) is a life-threatening vascular disease with a high
mortality rate. Surgery is essential in the acute phase but carries significant
risks, whereas elective surgery during the chronic phase yields better outcomes.
However, no pharmacological therapy has been proven effective in slowing AD
progression. In our recent pilot clinical study, an association between higher
plasma fibrinogen levels and improved clinical outcomes was observed in AD
patients, suggesting a potential protective role of fibrinogen. However, direct
evidence supporting this hypothesis is lacking. In this study, a
population-based analysis of nonsurgically managed patients with acute AD
revealed a distinct association: fibrinogen levels <2 g/L were significantly
associated with increased mortality, whereas levels >4 g/L were significantly
associated with reduced mortality. Notably, fibrinogen was undetectable in
aortic samples from control individuals without AD but accumulated in the aortic
media of both AD patients and model mice. Importantly, fibrinogen accumulation
was more pronounced in mice with advanced but unruptured AD, suggesting its role
in maintaining vascular stability. AAV8-mediated fibrinogen knockdown
significantly exacerbated AD, whereas exogenous supplementation with fibrinogen
alleviated AD in mice, as evidenced by changes in the survival rate, aortic
dilation, AD incidence, elastic fiber degradation, and collagen accumulation.
Mechanistically, fibrinogen inhibited Bmal1 signaling, preventing detrimental
vascular smooth muscle cell (VSMC) phenotypic transformation and contractility
impairment. Finally, exogenous supplementation with the optimal dose of
fibrinogen mitigates the progression of AD in mice. This study identified
fibrinogen as a key regulator of VSMC contractility and aortic structural
integrity, highlighting its potential as a novel therapeutic target to delay AD
progression and extend the window for elective surgery.
DOI: 10.1038/s41392-026-02610-x