Medicine Research Center, Clinical Medical College, Weifang Medical University, Weifang, Shandong 261053, P.R. China.
Mol Med Rep. 2019 Mar;19(3):1739-1746. doi: 10.3892/mmr.2019.9819. Epub 2019 Jan 3.
The present study aimed to evaluate the effects of Krüppel‑like factor 2 (KLF2) on the differentiation of endothelial progenitor cells (EPCs) to endothelial cells (ECs) induced by shear stress, and to investigate the corresponding mechanisms. Cultured rat late EPCs were exposed to shear stress (12 dyn/cm2) for different lengths of time. Reverse transcription‑quantitative polymerase chain reaction (RT‑qPCR) was used to measure the initial KLF2 mRNA levels in each group. Subsequently, the EPCs were treated with anti‑integrin β1 or β3 antibodies to block integrin β1 and β3, respectively, or cytochalasin D to destroy F‑actin, and the subsequent expression levels of KLF2 in EPCs were measured. Then, KLF2 small interfering RNAs (siRNAs) were transfected into EPCs, and RT‑qPCR was used to measure the mRNA expression level of KLF2. Additionally, flow cytometry was applied to evaluate the protein levels of cluster of differentiation 31 (CD31) and the von Willebrand factor (vWF), and the regulatory effects of KLF2 in the promoter region of vWF were determined via a luciferase assay. High shear stress upregulated KLF2 expression, while blocking integrin β1/β3 or destroying F‑actin resulted in a corresponding decrease in KLF2 expression. Downregulation of KLF2 expression by siKLF2 inhibited the differentiation of EPCs to ECs under shear stress conditions, while the expression of EC‑specific markers decreased, including CD31 and vWF. Various lengths of the vWF promoter region induced vWF expression, and EPCs co‑transfected with KLF2 significantly increased the vWF expression levels compared with the group treated with vWF alone (P<0.01). In conclusion, shear stress may upregulate KLF2 expression, which may be associated with the integrin‑actin cytoskeleton system. Most importantly, the shear stress‑induced differentiation of EPCs may be mediated by KLF2.
本研究旨在评估 Krüppel 样因子 2 (KLF2) 对切应力诱导的内皮祖细胞 (EPC) 向内皮细胞 (EC) 分化的影响,并探讨其相应的机制。将培养的大鼠晚期 EPC 暴露于不同时间的切应力 (12 dyn/cm2) 下。采用反转录-定量聚合酶链反应 (RT-qPCR) 测量每组的初始 KLF2 mRNA 水平。随后,用抗整合素 β1 或 β3 抗体分别处理 EPCs,以阻断整合素 β1 和 β3,或用细胞松弛素 D 破坏 F-肌动蛋白,并测量 EPCs 中随后的 KLF2 表达水平。然后,将 KLF2 小干扰 RNA (siRNA) 转染至 EPCs 中,采用 RT-qPCR 测量 KLF2 mRNA 表达水平。此外,采用流式细胞术评估 CD31 和血管性血友病因子 (vWF) 的蛋白水平,并通过荧光素酶测定确定 KLF2 在 vWF 启动子区域的调节作用。高切应力上调 KLF2 表达,而阻断整合素 β1/β3 或破坏 F-肌动蛋白则导致 KLF2 表达相应降低。在切应力条件下,通过 siKLF2 下调 KLF2 表达抑制 EPC 向 EC 的分化,同时降低 EC 特异性标志物的表达,包括 CD31 和 vWF。vWF 启动子区域的不同长度诱导 vWF 表达,与单独用 vWF 处理的组相比,EPC 共转染 KLF2 后 vWF 表达水平显著增加 (P<0.01)。综上所述,切应力可能上调 KLF2 表达,这可能与整合素-肌动蛋白细胞骨架系统有关。最重要的是,EPC 向 EC 的分化可能是由 KLF2 介导的。
