Lee Hae-Young, Chung Jae-Woong, Youn Seock-Won, Kim Ju-Young, Park Kyung-Woo, Koo Bon-Kwon, Oh Byung-Hee, Park Young-Bae, Chaqour Brahim, Walsh Kenneth, Kim Hyo-Soo
National Research Laboratory for Cardiovascular Stem Cell, Seoul National University Hospital, Korea.
Circ Res. 2007 Feb 16;100(3):372-80. doi: 10.1161/01.RES.0000257945.97958.77. Epub 2007 Jan 18.
Cysteine-rich angiogenic protein 61 (CYR61, CCN1) is an immediate early gene expressed in vascular smooth muscle cells (VSMCs) on growth factor stimulation, and its expression has been suggested to be associated with postangioplasty restenosis. The forkhead transcription factors are reported to play various roles in cellular proliferation, apoptosis, and even adaptation to cellular stress. We hypothesized that the forkhead transcription factor FOXO3a may regulate CYR61 expression in VSMCs and investigated the CYR61-modulating effect of FOXO3a in the process of vascular response to vasoactive signals and vascular injury. To evaluate the effect of FOXO3a on CYR61 expression, rat VSMCs were infected with adenoviral vectors expressing constitutively active FOXO3a (Ad-TM-FOXO3a). Constitutively active FOXO3a gene transduction suppressed CYR61 expression. Luciferase assay with the deletion constructs of the forkhead factor binding motif in CYR61 promoter region, which resulted in a significant decrease in luciferase expression compared with the intact construct, and chromatin immunoprecipitation analysis confirmed transcriptional regulation of CYR61 by FOXO3a. Serum and angiotensin II rapidly induced CYR61 expression, which was significantly reduced by Ad-TM-FOXO3a. Reduction of VSMC proliferation and migration associated with FOXO3a activation was significantly reversed by cotransfection of adenoviral vector expressing CYR61, whereas apoptosis induction by FOXO3a was not influenced. In a rat balloon carotid arterial injury model, CYR61 was rapidly induced in VSMCs in the early stage of injury and remained elevated until 14 days, which was suppressed by Ad-TM-FOXO3a transfection. After 14 days, there was a significant reduction in neointima by FOXO3a transduction compared with the control group (0.06+/-0.02 versus 0.20+/-0.07 mm(2), P<0.01). Such reduction of neointimal hyperplasia by Ad-TM-FOXO3a was reversed by CYR61 replenishment. These data suggest that FOXO3a is a negative transcription factor of CYR61 and that suppression of CYR61 is among several mechanisms by which FOXO3a inhibits VSMC proliferation and neointimal hyperplasia.
富含半胱氨酸的血管生成蛋白61(CYR61,CCN1)是一种即时早期基因,在生长因子刺激下于血管平滑肌细胞(VSMC)中表达,其表达被认为与血管成形术后再狭窄有关。据报道,叉头转录因子在细胞增殖、凋亡甚至细胞应激适应中发挥多种作用。我们假设叉头转录因子FOXO3a可能调节VSMC中CYR61的表达,并研究了FOXO3a在血管对血管活性信号和血管损伤反应过程中对CYR61的调节作用。为了评估FOXO3a对CYR61表达的影响,用表达组成型活性FOXO3a的腺病毒载体(Ad-TM-FOXO3a)感染大鼠VSMC。组成型活性FOXO3a基因转导抑制了CYR61的表达。对CYR61启动子区域叉头因子结合基序的缺失构建体进行荧光素酶测定,与完整构建体相比,荧光素酶表达显著降低,染色质免疫沉淀分析证实了FOXO3a对CYR61的转录调控。血清和血管紧张素II迅速诱导CYR61表达,Ad-TM-FOXO3a可显著降低其表达。与FOXO3a激活相关的VSMC增殖和迁移减少通过共转染表达CYR61的腺病毒载体而显著逆转,而FOXO3a诱导的凋亡不受影响。在大鼠球囊颈动脉损伤模型中,CYR61在损伤早期的VSMC中迅速诱导,并持续升高至14天,Ad-TM-FOXO3a转染可抑制其升高。14天后,与对照组相比,FOXO3a转导使新生内膜显著减少(0.06±0.02对0.20±0.07mm²,P<0.01)。Ad-TM-FOXO3a对新生内膜增生的这种减少通过补充CYR61而逆转。这些数据表明FOXO3a是CYR61的负转录因子,并且抑制CYR61是FOXO3a抑制VSMC增殖和新生内膜增生的几种机制之一。
