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Aortic microcalcification is associated with elastin fragmentation in Marfan syndrome

Authors :
Wanga, S. (Shaynah)
Hibender, S. (Stijntje)
Ridwan, R.Y. (Yanto)
van Roomen, C. (Cindy)
Vos, M. (Mariska)
Van Der Made, I. (Ingeborg)
Vliet, N. (Nicole) van
Franken, R. (Romy)
van Riel, L.A.M.J.G. (Luigi A.M.J.G.)
Groenink, M. (Maarten)
Zwinderman, A.H. (Ailko)
Mulder, B.J.M. (Barbara)
Vries, C.J.M. (Corry) de
Essers, J. (Jeroen)
De Waard, V. (Vivian)
Wanga, S. (Shaynah)
Hibender, S. (Stijntje)
Ridwan, R.Y. (Yanto)
van Roomen, C. (Cindy)
Vos, M. (Mariska)
Van Der Made, I. (Ingeborg)
Vliet, N. (Nicole) van
Franken, R. (Romy)
van Riel, L.A.M.J.G. (Luigi A.M.J.G.)
Groenink, M. (Maarten)
Zwinderman, A.H. (Ailko)
Mulder, B.J.M. (Barbara)
Vries, C.J.M. (Corry) de
Essers, J. (Jeroen)
De Waard, V. (Vivian)
Publication Year :
2017

Abstract

Marfan syndrome (MFS) is a connective tissue disorder in which aortic rupture is the major cause of death. MFS patients with an aortic diameter below the advised limit for prophylactic surgery (<5 cm) may unexpectedly experience an aortic dissection or rupture, despite yearly monitoring. Hence, there is a clear need for improved prognostic markers to predict such aortic events. We hypothesize that elastin fragments play a causal role in aortic calcification in MFS, and that microcalcification serves as a marker for aortic disease severity. To address this hypothesis, we analysed MFS patient and mouse aortas. MFS patient aortic tissue showed enhanced microcalcification in areas with extensive elastic lamina fragmentation in the media. A causal relationship between medial injury and microcalcification was revealed by studies in vascular smooth muscle cells (SMCs); elastin peptides were shown to increase the activity of the calcification marker alkaline phosphatase (ALP) and reduce the expression of the calcification inhibitor matrix GLA protein in human SMCs. In murine Fbn1C1039G/+ MFS aortic SMCs, Alpl mRNA and activity were upregulated as compared with wild-type SMCs. The elastin peptide-induced ALP activity was prevented by incubation with lactose or a neuraminidase inhibitor, which inhibit the elastin receptor complex, and a mitogen-activated protein kinase kinase-1/2 inhibitor, indicating downstream involvement of extracellular signal-regulated kinase-1/2 (ERK1/2) phosphorylation. Histological analyses in MFS mice revealed macrocalcification in the aortic root, whereas the ascending aorta contained microcalcification, as identified with the near-infrared fluorescent bisphosphonate probe OsteoSense-800. Significantly, microcalcification correlated strongly with aortic diameter, distensibility, elastin breaks, and phosphorylated ERK1/2. In conclusion, microcalcification co-localizes with aortic elastin degradation in MFS aortas of humans and mice, where elastin-der

Details

Database :
OAIster
Notes :
application/pdf, Journal of Pathology vol. 243 no. 3, pp. 294-306, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1047726742
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1002.path.4949