CircRNA YAP1对股骨头微血管内皮细胞血管生成的作用研究

doi:10.3969/j.issn.1006-6233.2023.06.04

摘要
图/表
参考文献
相关文章 (9)

全文: PDF (2526 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要 目的: 探讨环状RNA(circRNA)YAP1对激素性股骨头坏死(SONFH)大鼠股骨头微血管内皮细胞(MVECs)血管生成的作用与机制。方法: 成年雄性SD大鼠接受甲基强的松龙(MPS,20mg·kg^-1·d^-1肌肉注射3周,以诱导SONFH模型(n=30只)。Ctrl组(n=30只)注射等量生理盐水。用micro-CT扫描和HE染色评估是否造模成功。分离大鼠的股骨头MVECs。并用CD31蛋白作为标志物用免疫荧光化学法(IF)鉴定股骨头MVECs。将MVECs分为过表达circRNA YAP1组(pcDNA-YAP1组)、阴性对照组(pcDNA-NC组)、以及pcDNA-YAP1联合Wnt1/β-catenin通路拮抗剂dickkopf-1处理组(pcDNA-YAP1+dickkopf-1组)。用qPCR检测circRNA YAP1表达,Western blot法分别检测Wnt1、β-catenin、VEGF-A和vimentin的表达。用CCK-8实验检测各组细胞的增殖活性。Transwell小室检测细胞的迁移率。管形成实验检测细胞的血管生成能力。结果: HE染色结果显示Ctrl组表现为健康状态,无骨坏死,SONFH组大鼠均重度股骨头坏死,股骨头恶化。micro-CT扫描的结果显示Ctrl组表现骨小梁致密规则,骨小梁数量和形态均正常,SONFH组伴空骨陷窝,骨小梁减少,骨小梁缩短。与Ctrl组(1.00±0.08;1.00±0.12;1.00±0.15)比较,SONFH组股骨组织中circRNA YAP1(0.27±0.04)、Wnt1(0.49±0.03)、β-catenin(0.33±0.03)表达量均显著减少(t=12.158,P=0.009;t=10.596,P=0.012;t=10.080,P=0.014)。另外,成功分离Ctrl组和SONFH组的股骨头MVECs。与Ctrl组(1.00±0.00;1.00±0.02;1.00±0.01)比,SONFH组股骨头MVECs中circRNA YAP1(0.15±0.01)、Wnt1(0.28±0.05)、β-catenin(0.31±0.02)表达量都显著减少(t=17.625,P=0.004;t=16.154,P=0.005;t=13.596,P=0.007)。在MVECs中,与pcDNA-NC组比,pcDNA-YAP1组的circRNA YAP1、Wnt1、β-catenin、VEGF-A和vimentin的表达均上调,细胞增殖率、细胞迁移以及小管形成率都明显增加(均P<0.05)。与pcDNA-YAP1组比,pcDNA-YAP1+dickkopf-1组的circRNA YAP1表达变化无统计学意义(P>0.05),而Wnt1、β-catenin、VEGF-A和vimentin的表达均下调,细胞增殖率、细胞迁移、以及小管形成率都明显被抑制(均P<0.05)。结论: CircRNA YAP1通过激活Wnt1/β-catenin通路促进SONFH大鼠的骨血管内皮细胞的血管生成。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	日夏提·帕尔哈提
	翟生
	吕青

关键词 ：激素性股骨头坏死, 环状RNA YAP1, Wnt1/β-catenin信号通路, 股骨头微血管内皮细胞, 血管生成

Abstract：Objective: To explore the role and mechanism of circular RNA (circRNA) YAP1 in the regulation of microvascular endothelial cell (MVEC) angiogenesis in steroid-induced osteonecrosis of the femoral head (SONFH) rats. Methods: Adult male SD rats were injected with methylprednisolone (MPS, 20 mg/kg/d) for 3 weeks to induce the SONFH model (n=30). The control group (n=30) was injected with an equal amount of saline. Micro-CT scanning and HE staining were performed to evaluate whether the model was successfully established. MVECs were isolated from the femoral heads of the rats using CD31 as a marker and identified by immunofluorescence staining. The MVECs were divided into three groups: the pcDNA-YAP1 group (overexpression of circRNA YAP1), the pcDNA-NC group (negative control), and the pcDNA-YAP1+dickkopf-1 group (treated with Wnt1/β-catenin pathway inhibitor dickkopf-1). The expression of circRNA YAP1 was detected using qPCR, while the expressions of Wnt1, β-catenin, VEGF-A, and vimentin were detected using Western blotting. Cell proliferation was detected using the CCK-8 assay, while cell migration was detected using the Transwell assay. Tube formation assays were performed to detect the angiogenic ability of the cells. Results: The HE staining results showed that the control group was healthy, with no bone necrosis, while the SONFH group showed severe femoral head necrosis and deterioration. The results of micro-CT scanning showed that the control group had dense and regular bone trabeculae, with normal numbers and morphology of bone trabeculae. The SONFH group was accompanied by an empty bone pit, a decrease in the number of bone trabeculae, and shortened bone trabeculae. Compared with the control group (1.00±0.08; 1.00±0.12; 1.00±0.15), the expressions of circRNA YAP1 (0.27±0.04), Wnt1 (0.49±0.03), and β-catenin (0.33±0.03) in the SONFH group were significantly reduced (t=12.158, P=0.009; t=10.596, P=0.012; t=10.080, P=0.014). In addition, MVECs from the femoral heads of the Ctrl and SONFH groups were successfully isolated. Compared with the control group (1.00±0.00; 1.00±0.02; 1.00±0.01), the expressions of circRNA YAP1 (0.15±0.01), Wnt1 (0.28±0.05), and β-catenin (0.31±0.02) in the MVECs from the SONFH group were significantly reduced (t=17.625, P=0.004; t=16.154, P=0.005; t=13.596, P=0.007).In MVECs, the expressions of circRNA YAP1, Wnt1, β-catenin, VEGF-A and vimentin were up-regulated in pcDNA-YAP1 group compared with pcDNA-NC group. The cell proliferation rate, cell migration rate and tubule formation rate were significantly increased (all P<0.05). Compared with pcDNA-YAP1 group, the expression of circRNA YAP1 in pcDNA-YAP1+dickkopf-1 group had no significant change (P>0.05), while the expression of Wnt1, β-catenin, VEGF-A and vimentin were down-regulated. The cell proliferation rate, cell migration rate and tubule formation rate were significantly inhibited (all P<0.05). Conclusion: CircRNA YAP1 promotes the angiogenesis of bone endovascular endothelial cells in SONFH rats by activating Wnt1/β-catenin pathway.

Key words： Steroid-induced femoral head necrosis Circular RNA YAP1 Wnt1/β-catenin signaling pathway Femoral head microvascular endothelial cells Angiogenesis

基金资助:新疆维吾尔自治区自然科学基金项目,(编号:2021D01C426)

通讯作者: 吕青

引用本文:

日夏提·帕尔哈提, 翟生, 吕青. CircRNA YAP1对股骨头微血管内皮细胞血管生成的作用研究[J]. 河北医学, 2023, 29(6): 899-905.
RIXIATI Paerhati, ZHAI Sheng, LV Qing. Effect of CircRNA YAP1 on Angiogenesis of Femoral Head Microvascular Endothelial Cells. HeBei Med, 2023, 29(6): 899-905.

链接本文:

http://www.hbyxzzs.cn/CN/10.3969/j.issn.1006-6233.2023.06.04 或 http://www.hbyxzzs.cn/CN/Y2023/V29/I6/899

[1] Yao T,Wang L,Ding Z F,et al.hsa_circ_0058122 knockdown prevents steroid-induced osteonecrosis of the femoral head by inhibiting human umbilical vein endothelial cells apoptosis via the miR-7974/IGFBP5 axis[J].Journal of Clinical Laboratory Analysis,2022,36(4):24134.
[2] Mao Z,Liu G,Xiao G Y,et al.CircCDR1as suppresses bone microvascular endothelial cell activity and angiogenesis through targeting miR-135b/FIH-1 axis[J].Orthopaedic surgery,2021,13(2):573-582.
[3] Sung I H,Son H J,Park J S,et al.Extraskeletal osteosarcoma misdiagnosed as heterotopic ossification after periprosthetic femoral fracture:A case report[J].Acta Orthopaedica Traumatologica Turcica,2020,54(1):117.
[4] Huang Y,Xiao D,Huang S,et al.Circular RNA YAP1 attenuates osteoporosis through up-regulation of YAP1 and activation of Wnt/β-catenin pathway[J].Biomedicine & Pharmacotherapy,2020,129:110365.
[5] Lee E,Ko J Y,Kim J,et al.Osteogenesis and angiogenesis are simultaneously enhanced in BMP2-/VEGF-transfected adipose stem cells through activation of the YAP/TAZ signaling pathway[J].Biomaterials science,2019,7(11):4588-4602.
[6] Jia L,Zhang Y,Ji Y,et al.YAP balances the osteogenic and adipogenic differentiation of hPDLSCs in vitro partly through the Wnt/β-catenin signaling pathway[J].Biochemical and Biophysical Research Communications,2019,518(1):154-160.
[7] Hsu HW,Rodriguez-Ortiz CJ,Zumkehr J,et al.Inflammatory cytokine IL-1β downregulates endothelial LRP1 via microRNA-mediated gene silencing[J].Neuroscience,2021,453:69-80.
[8] Wan F,Zhang Q,Wen P,et al.Effect of glucocorticoids on miRNA expression spectrum of rat femoral head microcirculation endothelial cells[J].Gene,2018,651:126-133.
[9] Yan M,Wang H,Gu Y,et al.Melatonin exerts protective effects on diabetic retinopathy via inhibition of Wnt/β-catenin pathway as revealed by quantitative proteomics[J].Experimental Eye Research,2021,205:108521.
[10] Zhong L,Pan Y,Shen J.FBXW7 inhibits invasion,migration and angiogenesis in ovarian cancer cells by suppressing VEGF expression through inactivation of β-catenin signaling[J].Exp Ther Med,2021,21(5):514-522.
[11] Li D,Yang Z,Luo Y,et al.Delivery of miR335-5p-pendant tetrahedron DNA nanostructures using an injectable heparin lithium hydrogel for challenging bone defects in steroid-associated osteonecrosis[J].Adv Health Mater,2022,11(1):2101412.