Unraveling the role of TGFβ signaling in thoracic aortic aneurysm and dissection using Fbn1 mutant mouse models

IF 4.5 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Matrix Biology Pub Date : 2023-09-06 DOI:10.1016/j.matbio.2023.09.001

Violette Deleeuw , Eric Carlson , Marjolijn Renard , Keith D. Zientek , Phillip A. Wilmarth , Ashok P. Reddy , Elise C. Manalo , Sara F. Tufa , Douglas R. Keene , Margie Olbinado , Marco Stampanoni , Sachiko Kanki , Hiromi Yanagisawa , Laura Muiño Mosquera , Patrick Sips , Julie De Backer , Lynn Y. Sakai

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引用次数: 0

Abstract

Although abnormal TGFβ signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, its precise role in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to elucidate the role of TGFβ signaling in three Fbn1 mutant mouse models representing a range of aortic disease from microdissection (without aneurysm) to aneurysm (without rupture) to aneurysm and rupture. Results indicated that reduced TGFβ signaling and increased mast cell proteases were associated with microdissection. In contrast, increased abundance of extracellular matrix proteins, which could be reporters for positive TGFβ signaling, were associated with aneurysm. Marked reductions in collagens and fibrillins, and increased TGFβ signaling, were associated with aortic rupture. Our data indicate that TGFβ signaling performs context-dependent roles in the pathogenesis of thoracic aortic disease.

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应用Fbn1突变小鼠模型揭示TGFβ信号在胸主动脉瘤和夹层中的作用

尽管在包括Marfan综合征在内的几种可遗传形式的胸主动脉瘤和夹层中观察到TGFβ信号异常，但其在主动脉疾病进展中的确切作用仍存在争议。使用小鼠遗传学方法和定量等压标记蛋白质组学，我们试图阐明TGFβ信号在三种Fbn1突变小鼠模型中的作用，这些模型代表了从微切开（无动脉瘤）到动脉瘤（无破裂）再到动脉瘤和破裂的一系列主动脉疾病。结果表明，TGFβ信号传导的减少和肥大细胞蛋白酶的增加与显微切割有关。相反，细胞外基质蛋白丰度的增加可能是TGFβ信号传导阳性的报告因子，与动脉瘤有关。胶原和原纤维蛋白的显著减少以及TGFβ信号传导的增加与主动脉破裂有关。我们的数据表明，TGFβ信号传导在胸主动脉疾病的发病机制中起着依赖上下文的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Matrix Biology 生物-生化与分子生物学

CiteScore

11.40

自引率

4.30%

发文量

审稿时长

45 days

期刊介绍： Matrix Biology (established in 1980 as Collagen and Related Research) is a cutting-edge journal that is devoted to publishing the latest results in matrix biology research. We welcome articles that reside at the nexus of understanding the cellular and molecular pathophysiology of the extracellular matrix. Matrix Biology focusses on solving elusive questions, opening new avenues of thought and discovery, and challenging longstanding biological paradigms.