瓣膜内皮细胞衍生的Tgfβ1信号传导促进与钙化减轻相关的间质细胞中Sox9的核定位。

Valve Endothelial Cell-Derived Tgfβ1 Signaling Promotes Nuclear Localization of Sox9 in Interstitial Cells Associated With Attenuated Calcification.

作者信息

Huk Danielle J, Austin Blair F, Horne Tori E, Hinton Robert B, Ray William C, Heistad Donald D, Lincoln Joy

机构信息

From the Molecular and Cellular Pharmacology Graduate Program, Leonard M. Miller School of Medicine, Miami, FL (D.J.H.); Center for Cardiovascular Research and The Heart Center at Nationwide Children's Hospital Research Institute, Columbus, OH (D.J.H., B.F.A., T.E.H., J.L.); Division of Cardiology, The Heart Institute, Cincinnati Children's Hospital Medical Center, Cincinnati, OH (R.B.H.); Battelle Center for Mathematical Medicine, Nationwide Children's Hospital Research Institute, Columbus, OH (W.C.R.); The Ohio State University Interdisciplinary Graduate Program in Biophysics, Columbus, OH (W.C.R.); Department of Pediatrics, The Ohio State University, Columbus, OH (W.C.R., J.L.); and Division of Cardiovascular Medicine and Department of Pharmacology, University of Iowa Carver College of Medicine, Iowa City, IA (D.D.H.).

出版信息

Arterioscler Thromb Vasc Biol. 2016 Feb;36(2):328-38. doi: 10.1161/ATVBAHA.115.306091. Epub 2015 Dec 3.

DOI:10.1161/ATVBAHA.115.306091

PMID:26634652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4732913/

Abstract

OBJECTIVE

Aortic valve disease, including calcification, affects >2% of the human population and is caused by complex interactions between multiple risk factors, including genetic mutations, the environment, and biomechanics. At present, there are no effective treatments other than surgery, and this is because of the limited understanding of the mechanisms that underlie the condition. Previous work has shown that valve interstitial cells within the aortic valve cusps differentiate toward an osteoblast-like cell and deposit bone-like matrix that leads to leaflet stiffening and calcific aortic valve stenosis. However, the mechanisms that promote pathological phenotypes in valve interstitial cells are unknown.

APPROACH AND RESULTS

Using a combination of in vitro and in vivo tools with mouse, porcine, and human tissue, we show that in valve interstitial cells, reduced Sox9 expression and nuclear localization precedes the onset of calcification. In vitro, Sox9 nuclear export and calcific nodule formation is prevented by valve endothelial cells. However, in vivo, loss of Tgfβ1 in the endothelium leads to reduced Sox9 expression and calcific aortic valve disease.

CONCLUSIONS

Together, these findings suggest that reduced nuclear localization of Sox9 in valve interstitial cells is an early indicator of calcification, and therefore, pharmacological targeting to prevent nuclear export could serve as a novel therapeutic tool in the prevention of calcification and stenosis.

摘要

目的

主动脉瓣疾病，包括钙化，影响超过2%的人群，由多种风险因素之间的复杂相互作用引起，这些因素包括基因突变、环境和生物力学。目前，除了手术之外没有有效的治疗方法，这是因为对该病症背后机制的了解有限。先前的研究表明，主动脉瓣叶内的瓣膜间质细胞向成骨样细胞分化并沉积类骨基质，导致瓣叶僵硬和钙化性主动脉瓣狭窄。然而，促进瓣膜间质细胞病理表型的机制尚不清楚。

方法与结果

我们使用体外和体内工具，结合小鼠、猪和人类组织，发现瓣膜间质细胞中，Sox9表达和核定位的降低先于钙化的发生。在体外，瓣膜内皮细胞可防止Sox9核输出和钙化结节形成。然而，在体内，内皮细胞中Tgfβ1的缺失会导致Sox9表达降低和钙化性主动脉瓣疾病。

结论

这些研究结果共同表明，瓣膜间质细胞中Sox9核定位的降低是钙化的早期指标，因此，通过药物靶向防止核输出可作为预防钙化和狭窄的一种新型治疗手段。

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