Liao Danying, Mei Heng, Hu Yu, Newman Debra K, Newman Peter J
Blood Research Institute, Blood Center of Wisconsin, Milwaukee, WI, United States; Institute of Hematology, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, China.
Institute of Hematology, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, China.
Life Sci. 2018 Jan 15;193:186-193. doi: 10.1016/j.lfs.2017.11.002. Epub 2017 Nov 6.
PECAM-1 is an abundant endothelial cell surface receptor that becomes highly enriched at endothelial cell-cell junctions, where it functions to mediate leukocyte transendothelial migration, sense changes in shear and flow, and maintain the vascular permeability barrier. Homophilic interactions mediated by the PECAM-1 extracellular domain are known to be required for PECAM-1 to perform these functions; however, much less is understood about the role of its cytoplasmic domain in these processes.
CRISPR/Cas9 gene editing technology was employed to generate human endothelial cell lines that either lack PECAM-1 entirely, or express mutated PECAM-1 missing the majority of its cytoplasmic domain (∆CD-PECAM-1). The endothelial barrier function was evaluated by Electric Cell-substrate Impedance Sensing, and molecular mobility was assessed by fluorescence recovery after photobleaching.
We found that ∆CD-PECAM-1 concentrates normally at endothelial cell junctions, but has the unexpected property of conferring increased baseline barrier resistance, as well as a more rapid rate of recovery of vascular integrity following thrombin-induced disruption of the endothelial barrier. Fluorescence recovery after photobleaching analysis revealed that ∆CD-PECAM-1 exhibits increased mobility within the plane of the plasma membrane, thus allowing it to redistribute more rapidly back to endothelial cell-cell borders to reform the vascular permeability barrier.
The PECAM-1 cytoplasmic domain plays a novel role in regulating the rate and extent of vascular permeability following thrombotic or inflammatory challenge.
血小板内皮细胞黏附分子-1(PECAM-1)是一种在内皮细胞表面大量表达的受体,在内皮细胞间连接处高度富集,在介导白细胞跨内皮迁移、感知剪切力和血流变化以及维持血管通透性屏障方面发挥作用。已知PECAM-1胞外域介导的同源性相互作用是其执行这些功能所必需的;然而,对于其胞质域在这些过程中的作用了解甚少。
采用CRISPR/Cas9基因编辑技术构建完全缺失PECAM-1或表达缺失大部分胞质域的突变型PECAM-1(∆CD-PECAM-1)的人内皮细胞系。通过细胞-基质电阻抗传感评估内皮屏障功能,通过光漂白后荧光恢复评估分子流动性。
我们发现∆CD-PECAM-1正常聚集在内皮细胞连接处,但具有意想不到的特性,即赋予增加的基线屏障阻力,以及在凝血酶诱导的内皮屏障破坏后血管完整性恢复速度更快。光漂白后荧光恢复分析表明,∆CD-PECAM-1在质膜平面内表现出增加的流动性,从而使其能够更快地重新分布回到内皮细胞-细胞边界以重建血管通透性屏障。
PECAM-1胞质域在调节血栓形成或炎症刺激后血管通透性的速率和程度方面发挥新作用。