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Τρίτη 20 Φεβρουαρίου 2018

REDOX STRESS IN MARFAN SYNDROME: DISSECTING THE ROLE OF THE NADPH OXIDASE NOX4 IN AORTIC ANEURYSM

Publication date: Available online 20 February 2018
Source:Free Radical Biology and Medicine
Author(s): Francesc Jiménez-Altayó, Thayna Meirelles, Eva Crosas-Molist, M. Alba Sorolla, Darya Gorbenko del Blanco, Judit López-Luque, Aleksandra Mas-Stachurska, Ana-Maria Siegert, Fabio Bonorino, Laura Barberà, Carolina García, Enric Condom, Marta Sitges, Fernando Rodríguez-Pascual, Francisco Laurindo, Katrin Schröder, Joaquim Ros, Isabel Fabregat, Gustavo Egea
Marfan syndrome (MFS) is characterized by the formation of ascending aortic aneurysms resulting from altered assembly of extracellular matrix fibrillin-containing microfibrils and dysfunction of TGF-β signaling. Here we identify the molecular targets of redox stress in aortic aneurysms from MFS patients, and investigate the role of NOX4, whose expression is strongly induced by TGF-β, in aneurysm formation and progression in a murine model of MFS. Working models included aortae and cultured vascular smooth muscle cells (VSMC) from MFS patients, and a NOX4-deficient Marfan mouse model (Fbn1C1039G/+-Nox4-/-). Increased S-nitrosylation and reactive oxygen species levels were found in the tunica media of human aortic aneurysms and in cultured VSMC. Proteomic analysis identified nitrated and carbonylated proteins, which included smooth muscle α-actin (αSMA) and annexin A2. NOX4 immunostaining increased in the tunica media of human Marfan aorta and was transcriptionally overexpressed in VSMC. Fbn1C1039G/+-Nox4-/- mice aortas showed a reduction of fragmented elastic fibers, which was accompanied by an amelioration in the Marfan-associated enlargement of the aortic root. Increase in the contractile phenotype marker calponin in the tunica media of MFS mice aortas was abrogated in Fbn1C1039G/+-Nox4-/- mice. Endothelial dysfunction evaluated by myography in the Marfan ascending aorta was prevented by the absence of Nox4 or catalase-induced H2O2 decomposition. We conclude that redox stress occurs in MFS, whose targets are actin-based cytoskeleton members and regulators of extracellular matrix homeostasis. Likewise, NOX4 have an impact in the progression of the aortic dilation in MFS and in the structural organization of the aortic tunica media, the VSMC phenotypic modulation, and endothelial function.

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