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YAP 通过调节由 PFKFB3 驱动的内皮细胞糖酵解来促进眼部新生血管形成。

YAP promotes ocular neovascularization by modifying PFKFB3-driven endothelial glycolysis.

作者信息

Feng Yifan, Zou Rong, Zhang Xi, Shen Minqian, Chen Xiuping, Wang Jing, Niu Weiran, Yuan Yuanzhi, Yuan Fei

机构信息

Department of Ophthalmology, Zhongshan Hospital, Fudan University, 180 # Fenglin Road, Shanghai, 200032, China.

出版信息

Angiogenesis. 2021 Aug;24(3):489-504. doi: 10.1007/s10456-020-09760-8. Epub 2021 Jan 5.

DOI:10.1007/s10456-020-09760-8
PMID:33400016
Abstract

Ocular neovascularization is the leading cause of vision impairment in a variety of ocular diseases, such as age-related macular degeneration and retinopathy of prematurity. Emerging studies have suggested that the yes-associated protein (YAP), a downstream effector of the Hippo pathway, is involved in the pathological angiogenesis, but the mechanism are largely unknown. Here, we demonstrated that hypoxic treatment triggered YAP expression and nuclear translocation in human umbilical vein endothelial cells (HUVECs). YAP acted as a transcriptional co-activator working together with transcriptional enhancer activator domain 1 (TEAD1) to binds the promoter of the key glycolytic regulator 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase3 (PFKFB3), and thereby increases PFKFB3 expression. Moreover, silencing of YAP inhibited glycolysis as well as proliferation, migration, sprouting and tube formation of HUVECs under hypoxia, all of which could be reversed by enforced expression of PFKFB3. Finally, our animal study also showed that intravitreal injection of small interfering RNA of YAP or PFKFB3 dramatically suppressed the neovascular growth in mouse models of choroidal neovascularization and oxygen-induced retinopathy. These findings provide new insights into a previously unrecognized effect of YAP on endothelial glycolysis and highlight the potential of targeting YAP/PFKFB3 axis in the treatment of ocular neovascularization.

摘要

眼部新生血管形成是多种眼部疾病导致视力损害的主要原因,如年龄相关性黄斑变性和早产儿视网膜病变。新兴研究表明,Yes相关蛋白(YAP)作为Hippo信号通路的下游效应因子,参与病理性血管生成,但其机制尚不清楚。在此,我们证明低氧处理可触发人脐静脉内皮细胞(HUVECs)中YAP的表达及核转位。YAP作为转录共激活因子,与转录增强激活结构域1(TEAD1)共同作用,结合关键糖酵解调节因子6-磷酸果糖-2-激酶/果糖-2,6-二磷酸酶3(PFKFB3)的启动子,从而增加PFKFB3的表达。此外,YAP沉默抑制了低氧条件下HUVECs的糖酵解以及增殖、迁移、芽生和管腔形成,而PFKFB3的过表达可逆转所有这些情况。最后,我们的动物研究还表明,玻璃体内注射YAP或PFKFB3的小干扰RNA可显著抑制脉络膜新生血管和氧诱导性视网膜病变小鼠模型中的新生血管生长。这些发现为YAP对内皮细胞糖酵解的先前未被认识的作用提供了新见解,并突出了靶向YAP/PFKFB3轴治疗眼部新生血管形成的潜力。

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YAP promotes ocular neovascularization by modifying PFKFB3-driven endothelial glycolysis.YAP 通过调节由 PFKFB3 驱动的内皮细胞糖酵解来促进眼部新生血管形成。
Angiogenesis. 2021 Aug;24(3):489-504. doi: 10.1007/s10456-020-09760-8. Epub 2021 Jan 5.
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本文引用的文献

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YAP nuclear-cytoplasmic translocation is regulated by mechanical signaling, protein modification, and metabolism.YAP 的核质转位受机械信号、蛋白修饰和代谢的调控。
Cell Biol Int. 2020 Jul;44(7):1416-1425. doi: 10.1002/cbin.11345. Epub 2020 Mar 27.
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HIF-1α forms regulatory loop with YAP to coordinate hypoxia-induced adriamycin resistance in acute myeloid leukemia cells.HIF-1α 与 YAP 形成调节环,共同协调急性髓系白血病细胞缺氧诱导的阿霉素耐药性。
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Hallmarks of Endothelial Cell Metabolism in Health and Disease.
炎症诱导的人内皮细胞可变剪接揭示心血管疾病风险的遗传机制。
bioRxiv. 2025 Aug 2:2025.07.29.667484. doi: 10.1101/2025.07.29.667484.
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MIL-53(Fe)-Glucose self-assembled complex for enhanced angiogenesis and endothelial tip cell activation.用于增强血管生成和内皮尖端细胞活化的MIL-53(铁)-葡萄糖自组装复合物
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Wogonin Attenuates Atherosclerosis via KLF11-Mediated Suppression of PPARα-YAP1-Driven Glycolysis and Enhancement of ABCA1/G1-Mediated Cholesterol Efflux.汉黄芩素通过KLF11介导的对PPARα-YAP1驱动的糖酵解的抑制以及ABCA1/G1介导的胆固醇流出的增强来减轻动脉粥样硬化。
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The effect of enhancers on the lentiviral transduction efficiency in the human RPE cells: Insights for advancing retinal gene therapies.增强子对人视网膜色素上皮细胞慢病毒转导效率的影响:推进视网膜基因治疗的见解
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Semaphorin 6A phase separation sustains a histone lactylation-dependent lactate buildup in pathological angiogenesis.信号素6A相分离在病理性血管生成中维持组蛋白乳酸化依赖性乳酸积累。
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World J Gastroenterol. 2025 Mar 21;31(11):102848. doi: 10.3748/wjg.v31.i11.102848.
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Metabolic reprogramming in astrocytes prevents neuronal death through a UCHL1/PFKFB3/H4K8la positive feedback loop.星形胶质细胞中的代谢重编程通过UCHL1/PFKFB3/H4K8la正反馈回路防止神经元死亡。
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Nat Commun. 2025 Jan 2;16(1):87. doi: 10.1038/s41467-024-55769-8.
内皮细胞代谢的健康与疾病特征。
Cell Metab. 2019 Sep 3;30(3):414-433. doi: 10.1016/j.cmet.2019.08.011.
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