Syndecan-1 is overexpressed in human thoracic aneurysm but is dispensable for the disease progression in vivo

Abstract

ABSTRACTGlycosaminoglycans (GAGs) pooling has been considered since long as one of the histopathological characteristics defining thoracic aortic aneurysm (TAA) together with smooth muscle cells (SMCs) apoptosis and elastin fibers degradation. However, few information is provided about GAGs composition or potential implication in TAA pathology. Syndecan-1 (Sdc-1) is a heparan sulfate proteoglycan that is implicated in extracellular matrix (ECM) interaction and assembly, regulation of SMCs phenotype and various aspects of inflammation in the vascular wall. In the current work, the regulation of Sdc-1 protein was examined in human TAA by ELISA and immunohistochemistry. In addition, the role of Sdc-1 was evaluated in descending TAA in vivo using a mouse model combining both aortic wall weakening and hypertension. Our results showed that Sdc-1 protein is over expressed in human TAA aortas compared to healthy counterparts and that SMCs are the major cell type expressing Sdc-1. Similarly, in the mouse model used, Sdc-1 expression was increased in TAA aortas compared to healthy samples. Although its protective role against abdominal aneurysm has been reported, we observed that Sdc-1 was dispensable for TAA prevalence or rupture. In addition, Sdc-1 deficiency did not alter the extent of aortic wall dilatation, elastin degradation, collagen deposition, or leukocyte recruitment in our TAA model. These findings suggest that Sdc-1 could be a biomarker revealing TAA pathology. Future investigations could uncover the underlying mechanisms leading to Sdc-1 expression alteration in TAA.