剪切诱导转化生长因子-β信号在血管内皮中的作用。

The role of shear-induced transforming growth factor-β signaling in the endothelium.

机构信息

From the Departments of Ophthalmology (T.E.W., N.G.d.P., P.A.D.) and Pathology (P.A.D.), Schepens Eye Research Institute, Massachusetts Eye and Ear, Harvard Medical School, Boston; and La Jolla Bioengineering Institute, San Diego, CA (N.G.d.P.).

出版信息

Arterioscler Thromb Vasc Biol. 2013 Nov;33(11):2608-17. doi: 10.1161/ATVBAHA.113.302161. Epub 2013 Aug 22.

DOI:10.1161/ATVBAHA.113.302161

PMID:23968981

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4129450/

Abstract

OBJECTIVE

Vascular endothelial cells (ECs) are continuously exposed to blood flow that contributes to the maintenance of vessel structure and function; however, the effect of hemodynamic forces on transforming growth factor-β (TGF-β) signaling in the endothelium is poorly described. We examined the potential role of TGF-β signaling in mediating the protective effects of shear stress on ECs.

APPROACH AND RESULTS

Human umbilical vein ECs (HUVECs) exposed to shear stress were compared with cells grown under static conditions. Signaling through the TGF-β receptor ALK5 was inhibited with SB525334. Cells were examined for morphological changes and harvested for analysis by real-time polymerase chain reaction, Western blot analysis, apoptosis, proliferation, and immunocytochemistry. Shear stress resulted in ALK5-dependent alignment of HUVECs as well as attenuation of apoptosis and proliferation compared with static controls. Shear stress led to an ALK5-dependent increase in TGF-β3 and Krüppel-like factor 2, phosphorylation of endothelial NO synthase, and NO release. Addition of the NO donor S-nitroso-N-acetylpenicillamine rescued the cells from apoptosis attributable to ALK5 inhibition under shear stress. Knockdown of TGF-β3, but not TGF-β1, disrupted the HUVEC monolayer and prevented the induction of Krüppel-like factor 2 by shear.

CONCLUSIONS

Shear stress of HUVECs induces TGF-β3 signaling and subsequent activation of Krüppel-like factor 2 and NO, and represents a novel role for TGF-β3 in the maintenance of HUVEC homeostasis in a hemodynamic environment.

摘要

目的

血管内皮细胞（ECs）持续暴露于血流中，这有助于维持血管结构和功能；然而，血流切应力对内皮中转化生长因子-β（TGF-β）信号的影响还描述不足。我们研究了 TGF-β信号在介导切应力对 ECs 的保护作用中的潜在作用。

方法和结果

比较了暴露于切应力的人脐静脉内皮细胞（HUVECs）与在静态条件下生长的细胞。用 SB525334 抑制 TGF-β 受体 ALK5 的信号转导。通过实时聚合酶链反应、Western blot 分析、细胞凋亡、增殖和免疫细胞化学检测，对细胞进行形态变化分析和收获。与静态对照相比，切应力导致 HUVECs 的 ALK5 依赖性排列，并减弱细胞凋亡和增殖。切应力导致 ALK5 依赖性 TGF-β3 和 Krüppel 样因子 2 增加、内皮型一氧化氮合酶磷酸化和 NO 释放。NO 供体 S-亚硝基-N-乙酰青霉胺的添加挽救了因切应力下 ALK5 抑制而导致的细胞凋亡。TGF-β3 的敲低，但不是 TGF-β1 的敲低，破坏了 HUVEC 单层，并阻止了 Krüppel 样因子 2 由切应力诱导。

结论

HUVECs 的切应力诱导 TGF-β3 信号转导，随后激活 Krüppel 样因子 2 和 NO，这代表了 TGF-β3 在血流动力学环境中维持 HUVEC 内稳态的新作用。

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