In vitro and in vivo antiangiogenic activity of desacetylvinblastine monohydrazide through inhibition of VEGFR2 and Axl pathways

In vitro and in vivo antiangiogenic activity of desacetylvinblastine monohydrazide through inhibition of VEGFR2 and Axl pathways

Tumor angiogenic process is regulated by multiple proangiogenic pathways, such as vascular endothelial growth factor receptor 2 (VEGFR2) and Axl receptor tyrosine kinase (Axl). Axl is one of many important factors involved in anti-VEGF resistance. Inhibition of VEGF/VEGFR2 signaling pathway alone fa...

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Veröffentlicht in:American journal of cancer research 2016-01, Vol.6 (4), p.843-858
Hauptverfasser: Lei, Xueping, Chen, Minfeng, Nie, Qiulin, Hu, Jianyang, Zhuo, Zhenjian, Yiu, Anita, Chen, Heru, Xu, Nanhui, Huang, Maohua, Ye, Kaihe, Bai, Liangliang, Ye, Wencai, Zhang, Dongmei
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container_issue 4
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container_title American journal of cancer research
container_volume 6
creator Lei, Xueping
Chen, Minfeng
Nie, Qiulin
Hu, Jianyang
Zhuo, Zhenjian
Yiu, Anita
Chen, Heru
Xu, Nanhui
Huang, Maohua
Ye, Kaihe
Bai, Liangliang
Ye, Wencai
Zhang, Dongmei
description Tumor angiogenic process is regulated by multiple proangiogenic pathways, such as vascular endothelial growth factor receptor 2 (VEGFR2) and Axl receptor tyrosine kinase (Axl). Axl is one of many important factors involved in anti-VEGF resistance. Inhibition of VEGF/VEGFR2 signaling pathway alone fails to block tumor neovascularization. Therefore, discovery of novel agents targeting multiple angiogenesis pathways is in demand. Desacetylvinblastine monohydrazide (DAVLBH), a derivative of vinblastine (VLB), has been reported exhibit an anticancer activity via its cytotoxic effect. However, little attention has been paid to the antiangiogenic properties of DAVLBH. Here, we firstly reported that DAVLBH exerted a more potent antiangiogenic effect than VLB in vitro and in vivo, which was associated with inactivation of VEGF/VEGFR2 and Gas6/Axl signaling pathways. We found that DAVLBH inhibited VEGF- and Gas6-induced HUVECs proliferation, migration, tube formation and vessel sprouts formation in vitro and ex vivo. It significantly inhibited in vivo tumor angiogenesis and tumor growth in HeLa xenografts. It also inhibited Gas6-induced pericytes recruitment to endothelial tubes accompanied with a decrease in expression and activation of Axl. Besides, it could block the compensatory up-regulating expression and activation of Axl in response to bevacizumab treatment in HUVECs. Taken together, our results suggest that DAVLBH potently inhibits angiogenesis-mediated tumor growth through blockage of the activation of VEGF/VEGFR2 and Gas6/Axl pathways and it might serve as a promising antiangiogenic agent for the cancer therapy.
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Axl is one of many important factors involved in anti-VEGF resistance. Inhibition of VEGF/VEGFR2 signaling pathway alone fails to block tumor neovascularization. Therefore, discovery of novel agents targeting multiple angiogenesis pathways is in demand. Desacetylvinblastine monohydrazide (DAVLBH), a derivative of vinblastine (VLB), has been reported exhibit an anticancer activity via its cytotoxic effect. However, little attention has been paid to the antiangiogenic properties of DAVLBH. Here, we firstly reported that DAVLBH exerted a more potent antiangiogenic effect than VLB in vitro and in vivo, which was associated with inactivation of VEGF/VEGFR2 and Gas6/Axl signaling pathways. We found that DAVLBH inhibited VEGF- and Gas6-induced HUVECs proliferation, migration, tube formation and vessel sprouts formation in vitro and ex vivo. It significantly inhibited in vivo tumor angiogenesis and tumor growth in HeLa xenografts. It also inhibited Gas6-induced pericytes recruitment to endothelial tubes accompanied with a decrease in expression and activation of Axl. Besides, it could block the compensatory up-regulating expression and activation of Axl in response to bevacizumab treatment in HUVECs. 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title In vitro and in vivo antiangiogenic activity of desacetylvinblastine monohydrazide through inhibition of VEGFR2 and Axl pathways
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