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内皮细胞纤毛是流体剪切力传感器,可通过多囊蛋白-1调节钙信号传导和一氧化氮生成。

Endothelial cilia are fluid shear sensors that regulate calcium signaling and nitric oxide production through polycystin-1.

作者信息

Nauli Surya M, Kawanabe Yoshifumi, Kaminski John J, Pearce William J, Ingber Donald E, Zhou Jing

机构信息

Department of Pharmacology and Medicine, College of Pharmacy and Medicine, University of Toledo, Toledo, Ohio 43606, USA.

出版信息

Circulation. 2008 Mar 4;117(9):1161-71. doi: 10.1161/CIRCULATIONAHA.107.710111. Epub 2008 Feb 19.

DOI:10.1161/CIRCULATIONAHA.107.710111
PMID:18285569
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3071982/
Abstract

BACKGROUND

When challenged with extracellular fluid shear stress, vascular endothelial cells are known to release nitric oxide, an important vasodilator. Here, we show that the ability of cultured endothelial cells to sense a low range of fluid shear depends on apical membrane organelles, called cilia, and that cilia are compartments required for proper localization and function of the mechanosensitive polycystin-1 molecule.

METHODS AND RESULTS

Cells with the Pkd1(null/null) or Tg737(orpk/orpk) mutation encoded for polycystin-1 or polaris, respectively, are unable to transmit extracellular shear stress into intracellular calcium signaling and biochemical nitric oxide synthesis. Cytosolic calcium and nitric oxide recordings further show that fluid shear sensing is a cilia-specific mechanism because other mechanical or pharmacological stimulation does not abolish calcium and nitric oxide signaling in polycystin-1 and polaris mutant endothelial cells. Polycystin-1 localized in the basal body of Tg737(orpk/orpk) endothelial cells is insufficient for a fluid shear stress response. Furthermore, the optimal shear stress to which the cells respond best does not alter the apical cilia structure but modifies the responsiveness of cells to higher shear stresses through proteolytic modification of polycystin-1.

CONCLUSIONS

We demonstrate for the first time that polycystin-1 (required for cilia function) and polaris (required for cilia structure) are crucial mechanosensitive molecules in endothelial cells. We propose that a distinctive communication with the extracellular microenvironment depends on the proper localization and function of polycystin-1 in cilia.

摘要

背景

当受到细胞外液剪切应力刺激时,血管内皮细胞会释放一氧化氮,这是一种重要的血管舒张剂。在此,我们表明培养的内皮细胞感知低范围流体剪切的能力取决于称为纤毛的顶端膜细胞器,并且纤毛是机械敏感的多囊蛋白 -1 分子正确定位和功能所必需的区室。

方法与结果

分别编码多囊蛋白 -1 或基体蛋白的 Pkd1(null/null) 或 Tg737(orpk/orpk) 突变细胞无法将细胞外剪切应力转化为细胞内钙信号传导和生化一氧化氮合成。胞质钙和一氧化氮记录进一步表明,流体剪切感知是一种纤毛特异性机制,因为其他机械或药物刺激不会消除多囊蛋白 -1 和基体蛋白突变内皮细胞中的钙和一氧化氮信号传导。定位在 Tg737(orpk/orpk) 内皮细胞基体中的多囊蛋白 -1 不足以产生流体剪切应力反应。此外,细胞反应最佳的最佳剪切应力不会改变顶端纤毛结构,但会通过多囊蛋白 -1 的蛋白水解修饰改变细胞对更高剪切应力的反应性。

结论

我们首次证明多囊蛋白 -1(纤毛功能所必需)和基体蛋白(纤毛结构所必需)是内皮细胞中至关重要的机械敏感分子。我们提出与细胞外微环境的独特通讯取决于多囊蛋白 -1 在纤毛中的正确定位和功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d72/3071982/1ad8b6771267/nihms-285061-f0008.jpg
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