Inhibition of myeloperoxidase prevents thoracic aortic aneurysm formation in Marfan mice
Mehrkens, D.; Nettersheim, F. S.; Ballmann, F.; Bastigkeit, J.; Brueckner, A.; Dohr, J.; Geissen, S.; De Vore, L.; Schelemei, P.; Picard, F. R.; Kochen, M.; Braumann, S.; Kreuzberg, W.; Hof, A.; Guthoff, H.; Brandtner, A.; Quaye Mensah, B.; Groenink, M.; van Andel, M.; Mieremet, A.; Pfeiler, S.; Gerdes, N.; Floegel, U.; Zimmermann, L.-M.; Sengle, G.; Eich, M.-L.; Schoemig-Mariefka, B.; Adam, M.; Fleischmann, B. K.; Wenzel, D.; de Waard, V.; Klinke, A.; Baldus, S.; Mollenhauer, M.; Winkels, H.
Show abstract
Marfan syndrome (MFS) is the most prevalent inherited connective tissue disorder, still remains uncurable, and is characterized by high mortality at early age driven by dissection and rupture of thoracic aortic aneurysms. MFS is caused by mutations in the fibrillin-1 gene and aberrant TGF{beta} signaling. Here we addressed whether myeloperoxidase (MPO), a leukocyte derived enzyme with potent matrix modulating properties also influences the aortic phenotype in MFS. MFS patients displayed increased circulating MPO levels compared to controls as well as marked aortic MPO deposition. In an MFS mouse model, MPO induced inflammatory endothelial activation and endothelial to mesenchymal transition which triggered aortic leukocyte recruitment. Moreover, MPO directly contributed to adverse extracellular matrix remodeling by promoting oxidative stress and nitration of proteins within the vascular wall. Genetic MPO deficiency and pharmacological MPO inhibition attenuated MFS-related aneurysm formation. We herein identify MPO as a critical mediator of MFS-related thoracic aortic aneurysm formation and - in the absence of any pharmacological treatment so far in this disease - a first anti-inflammatory target to modulate disease progression.
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