Massive aggrecan and versican accumulation in thoracic aortic aneurysm and dissection
Frank S. Cikach, Christopher D. Koch, Timothy J. Mead, Josephine Galatioto, Belinda B. Willard, Kelly B. Emerton, Matthew J. Eagleton, Eugene H. Blackstone, Francesco Ramirez, Eric E. Roselli, Suneel S. Apte
Frank S. Cikach, Christopher D. Koch, Timothy J. Mead, Josephine Galatioto, Belinda B. Willard, Kelly B. Emerton, Matthew J. Eagleton, Eugene H. Blackstone, Francesco Ramirez, Eric E. Roselli, Suneel S. Apte
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Research Article Vascular biology

Massive aggrecan and versican accumulation in thoracic aortic aneurysm and dissection

Abstract

Proteoglycan accumulation is a hallmark of medial degeneration in thoracic aortic aneurysm and dissection (TAAD). Here, we defined the aortic proteoglycanome using mass spectrometry, and based on the findings, investigated the large aggregating proteoglycans aggrecan and versican in human ascending TAAD and a mouse model of severe Marfan syndrome. The aortic proteoglycanome comprises 20 proteoglycans including aggrecan and versican. Antibodies against these proteoglycans intensely stained medial degeneration lesions in TAAD, contrasting with modest intralamellar staining in controls. Aggrecan, but not versican, was increased in longitudinal analysis of Fbn1mgR/mgR aortas. TAAD and Fbn1mgR/mgR aortas had increased aggrecan and versican mRNAs, and reduced expression of a key proteoglycanase gene, ADAMTS5, was seen in TAAD. Fbn1mgR/mgR mice with ascending aortic dissection and/or rupture had dramatically increased aggrecan staining compared with mice without these complications. Thus, aggrecan and versican accumulation in ascending TAAD occurs via increased synthesis and/or reduced proteolytic turnover, and correlates with aortic dissection/rupture in Fbn1mgR/mgR mice. Tissue swelling imposed by aggrecan and versican is proposed to be profoundly deleterious to aortic wall mechanics and smooth muscle cell homeostasis, predisposing to type-A dissections. These proteoglycans provide potential biomarkers for refined risk stratification and timing of elective aortic aneurysm repair.

Authors

Frank S. Cikach, Christopher D. Koch, Timothy J. Mead, Josephine Galatioto, Belinda B. Willard, Kelly B. Emerton, Matthew J. Eagleton, Eugene H. Blackstone, Francesco Ramirez, Eric E. Roselli, Suneel S. Apte

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Figure 7

Model depicting the impact of large aggregating proteoglycan accumulation in ascending thoracic aortic aneurysm and dissection (TAAD).

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Model depicting the impact of large aggregating proteoglycan accumulatio...
In the normal aorta (left) the proteoglycans (PGs) aggrecan and versican as well as glycosaminoglycans provide compressive stiffness to the elastic lamellar units and place elastic fiber/microfibril-cell connections into tension. Pathologic accumulation of proteoglycans in TAAD (right), together with elastic fiber fragmentation may reduce smooth muscle cell–extracellular matrix connections. This loss of adhesive and mechanical input is proposed to perturb vascular smooth muscle cell mechanosensing and viability, depicted here as loss of the normal smooth muscle cell spindle shape and rounding in TAAD. Illustration is by David Schumick and reprinted with the permission of the Cleveland Clinic Center for Medical Art & Photography © 2017. All rights reserved.