AI Article Synopsis
- Abdominal aortic aneurysm (AAA) development is linked to inflammation in the blood vessel wall, primarily driven by COX-2 and related prostaglandin pathways.
- In a mouse model, administering a specific EP4 receptor antagonist significantly decreased the incidence and severity of AAA, while reducing inflammatory markers in treated mice compared to controls.
- Genetic knockdown of COX-2 did not have a meaningful impact on AAA incidence, suggesting that the EP4 receptor plays a more critical role in the inflammatory process associated with AAA in this context.
Article Abstract
Abdominal aortic aneurysm (AAA) pathogenesis is distinguished by vessel wall inflammation. Cyclooxygenase (COX)-2 and microsomal prostaglandin E synthase-1, key components of the most well-characterized inflammatory prostaglandin pathway, contribute to AAA development in the 28-day angiotensin II infusion model in mice. In this study, we used this model to examine the role of the prostaglandin E receptor subtype 4 (EP4) and genetic knockdown of COX-2 expression (70% to 90%) in AAA pathogenesis. The administration of the prostaglandin receptor EP4 antagonist AE3-208 (10 mg/kg per day) to apolipoprotein E (apoE)-deficient mice led to active drug plasma concentrations and reduced AAA incidence and severity compared with control apoE-deficient mice (P < 0.01), whereas COX-2 genetic knockdown/apoE-deficient mice displayed only a minor, nonsignificant decrease in incidence of AAA. EP4 receptor protein was present in human and mouse AAA, as observed by using Western blot analysis. Aortas from AE3-208-treated mice displayed evidence of a reduced inflammatory phenotype compared with controls. Atherosclerotic lesion size at the aortic root was similar between all groups. In conclusion, the prostaglandin E(2)-EP4 signaling pathway plays a role in the AAA inflammatory process. Blocking the EP4 receptor pharmacologically reduces both the incidence and severity of AAA in the angiotensin II mouse model, potentially via attenuation of cytokine/chemokine synthesis and the reduction of matrix metalloproteinase activities.
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| http://dx.doi.org/10.1016/j.ajpath.2012.03.016 | DOI Listing |
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