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本文引用的文献

1
Artemisinins: pharmacological actions beyond anti-malarial.青蒿素类药物:抗疟作用之外的药理作用。
Pharmacol Ther. 2014 Apr;142(1):126-39. doi: 10.1016/j.pharmthera.2013.12.001. Epub 2013 Dec 6.
2
Topical dihydroartemisinin inhibits suture-induced neovascularization in rat corneas through ERK1/2 and p38 pathways.局部应用双氢青蒿素通过ERK1/2和p38信号通路抑制大鼠角膜缝线诱导的新生血管形成。
Int J Ophthalmol. 2011;4(2):150-5. doi: 10.3980/j.issn.2222-3959.2011.02.08. Epub 2011 Apr 18.
3
Dihydroartemisinin exhibits antitumor activity toward hepatocellular carcinoma in vitro and in vivo.双氢青蒿素在体内外均具有抗肝癌活性。
Biochem Pharmacol. 2012 May 1;83(9):1278-89. doi: 10.1016/j.bcp.2012.02.002. Epub 2012 Feb 9.
4
Antitumor activity of artemisinin and its derivatives: from a well-known antimalarial agent to a potential anticancer drug.青蒿素及其衍生物的抗肿瘤活性:从一种著名的抗疟药物到一种潜在的抗癌药物。
J Biomed Biotechnol. 2012;2012:247597. doi: 10.1155/2012/247597. Epub 2011 Nov 22.
5
Hypoxia modulates the effect of dihydroartemisinin on endothelial cells.缺氧调节二氢青蒿素对血管内皮细胞的作用。
Biochem Pharmacol. 2011 Sep 1;82(5):476-84. doi: 10.1016/j.bcp.2011.06.002. Epub 2011 Jun 13.
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Molecular mechanisms and clinical applications of angiogenesis.血管生成的分子机制与临床应用。
Nature. 2011 May 19;473(7347):298-307. doi: 10.1038/nature10144.
7
Dihydroartemisinin inhibits angiogenesis in pancreatic cancer by targeting the NF-κB pathway.双氢青蒿素通过靶向 NF-κB 通路抑制胰腺癌血管生成。
Cancer Chemother Pharmacol. 2011 Dec;68(6):1421-30. doi: 10.1007/s00280-011-1643-7. Epub 2011 Apr 9.
8
Animal models of choroidal and retinal neovascularization.脉络膜和视网膜新生血管的动物模型。
Prog Retin Eye Res. 2010 Nov;29(6):500-19. doi: 10.1016/j.preteyeres.2010.05.003. Epub 2010 May 19.
9
Dihydroartemisinin accelerates c-MYC oncoprotein degradation and induces apoptosis in c-MYC-overexpressing tumor cells.双氢青蒿素加速 c-MYC 癌蛋白降解并诱导 c-MYC 过表达肿瘤细胞凋亡。
Biochem Pharmacol. 2010 Jul 1;80(1):22-30. doi: 10.1016/j.bcp.2010.02.016. Epub 2010 Mar 3.
10
Special features of human retinal angiogenesis.人类视网膜血管生成的特点。
Eye (Lond). 2010 Mar;24(3):401-7. doi: 10.1038/eye.2009.324. Epub 2010 Jan 15.

双氢青蒿素通过内皮细胞中的核因子κB通路靶向血管内皮生长因子受体2以抑制血管生成。

Dihydroartemisinin targets VEGFR2 via the NF-κB pathway in endothelial cells to inhibit angiogenesis.

作者信息

Dong Fengyun, Zhou Xia, Li Changsheng, Yan Suhua, Deng Xianming, Cao Zhiqun, Li Liqun, Tang Bo, Allen Thaddeus D, Liu Ju

机构信息

a Laboratory of Microvascular Medicine; Medical Research Center; Shandong Provincial Qianfoshan Hospital ; Shandong University ; Jinan , Shandong , China.

出版信息

Cancer Biol Ther. 2014;15(11):1479-88. doi: 10.4161/15384047.2014.955728.

DOI:10.4161/15384047.2014.955728
PMID:25482945
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4623302/
Abstract

The anti-malarial agent dihydroartemisinin (DHA) has strong anti-angiogenic activity. This study aimed to investigate the molecular mechanism underlying this effect of DHA on angiogenesis. We found that DHA shows a dose-dependent inhibition of proliferation and migration of in HUVECs. DHA specifically down-regulates the mRNA and protein expression of VEGFR2 in endothelial cells. Treatment with DHA increases IκB-α protein and blocks nuclear translocation of NF-κB p65. In addition, DHA directly regulates VEGFR2 promoter activity through p65 binding motif, and decreases the binding activity of p65 and VEGFR2 promoter, suggesting defective NF-κB signaling may underlie the observed effects of DHA on VEGFR2 expression. In the presence of the NF-κB inhibitor PDTC, DHA could not further repress VEGFR2. Co-treatment with PDTC and DHA produced minimal changes compared to the effects of either drug alone in in vitro angiogenesis assays. Similar findings were found in vivo through a mouse retinal neovascularization model examining the effects of PDTC and DHA. Our data suggested that DHA inhibits angiogenesis largely through repression of the NF-κB pathway. DHA is well tolerated, and therefore may be an ideal candidate to use clinically as an angiogenesis inhibitor for cancer treatment.

摘要

抗疟药双氢青蒿素(DHA)具有很强的抗血管生成活性。本研究旨在探讨DHA对血管生成产生这种作用的分子机制。我们发现DHA对人脐静脉内皮细胞(HUVECs)的增殖和迁移具有剂量依赖性抑制作用。DHA特异性下调内皮细胞中血管内皮生长因子受体2(VEGFR2)的mRNA和蛋白表达。用DHA处理可增加IκB-α蛋白并阻断核因子κB(NF-κB)p65的核转位。此外,DHA通过p65结合基序直接调节VEGFR2启动子活性,并降低p65与VEGFR2启动子的结合活性,这表明NF-κB信号缺陷可能是DHA对VEGFR2表达产生上述作用的基础。在存在NF-κB抑制剂吡咯烷二硫代氨基甲酸盐(PDTC)的情况下,DHA不能进一步抑制VEGFR2。在体外血管生成试验中,与单独使用任何一种药物的效果相比,PDTC和DHA联合处理产生的变化最小。通过小鼠视网膜新生血管模型研究PDTC和DHA的作用,在体内也发现了类似的结果。我们的数据表明,DHA主要通过抑制NF-κB途径来抑制血管生成。DHA耐受性良好,因此可能是临床上用作癌症治疗血管生成抑制剂的理想候选药物。