Notch and VEGF pathways play distinct but complementary roles in tumor angiogenesis.

Q4 Neuroscience Vascular Cell Pub Date : 2013-09-25 DOI:10.1186/2045-824X-5-17
Sonia L Hernandez, Debarshi Banerjee, Alejandro Garcia, Thaned Kangsamaksin, Wei-Yi Cheng, Dimitris Anastassiou, Yasuhiro Funahashi, Angela Kadenhe-Chiweshe, Carrie J Shawber, Jan K Kitajewski, Jessica J Kandel, Darrell J Yamashiro
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引用次数: 32

Abstract

Background: Anti-angiogenesis is a validated strategy to treat cancer, with efficacy in controlling both primary tumor growth and metastasis. The role of the Notch family of proteins in tumor angiogenesis is still emerging, but recent data suggest that Notch signaling may function in the physiologic response to loss of VEGF signaling, and thus participate in tumor adaptation to VEGF inhibitors.

Methods: We asked whether combining Notch and VEGF blockade would enhance suppression of tumor angiogenesis and growth, using the NGP neuroblastoma model. NGP tumors were engineered to express a Notch1 decoy construct, which restricts Notch signaling, and then treated with either the anti-VEGF antibody bevacizumab or vehicle.

Results: Combining Notch and VEGF blockade led to blood vessel regression, increasing endothelial cell apoptosis and disrupting pericyte coverage of endothelial cells. Combined Notch and VEGF blockade did not affect tumor weight, but did additively reduce tumor viability.

Conclusions: Our results indicate that Notch and VEGF pathways play distinct but complementary roles in tumor angiogenesis, and show that concurrent blockade disrupts primary tumor vasculature and viability further than inhibition of either pathway alone.

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Notch和VEGF通路在肿瘤血管生成中发挥着不同但互补的作用。
背景:抗血管生成是一种有效的治疗癌症的策略,在控制原发肿瘤生长和转移方面都有疗效。Notch蛋白家族在肿瘤血管生成中的作用尚不清楚,但最近的数据表明,Notch信号可能在VEGF信号缺失的生理反应中发挥作用,从而参与肿瘤对VEGF抑制剂的适应。方法:采用NGP神经母细胞瘤模型,探讨Notch联合VEGF阻断是否能增强对肿瘤血管生成和生长的抑制作用。NGP肿瘤被设计表达Notch1诱饵结构,限制Notch信号,然后用抗vegf抗体贝伐单抗或载体治疗。结果:Notch和VEGF联合阻断可导致血管消退,增加内皮细胞凋亡,破坏内皮细胞周细胞覆盖。Notch和VEGF联合阻断不影响肿瘤重量,但会降低肿瘤生存能力。结论:我们的研究结果表明Notch和VEGF通路在肿瘤血管生成中发挥着不同但互补的作用,并且表明同时阻断比单独抑制任何一条通路更能破坏原发肿瘤的血管系统和活力。
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来源期刊
Vascular Cell
Vascular Cell Neuroscience-Neurology
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0.70
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