Zippel Nina, Ding Yindi, Fleming Ingrid
Institute for Vascular Signalling, Centre for Molecular Medicine, Goethe University, Theodor-Stern-Kai 7, Frankfurt am Main, Frankfurt, D-60590, Germany.
Methods Mol Biol. 2016;1430:205-19. doi: 10.1007/978-1-4939-3628-1_14.
Angiogenesis, an integral part of many physiological and pathological processes, is a tightly regulated multistep process. Angiogenesis assays are used to clarify the molecular mechanisms and screen for pharmacological inhibitors. However, most in vitro angiogenesis models measure only one aspect of this process, whereas in vivo assays are complex and difficult to interpret. The ex vivo aortic ring model allows the study of many key features of angiogenesis, such as endothelial activation, branching, and remodeling as well as later steps such as pericyte acquisition. This model can be modified to include genetic manipulation and can be used to assess the pro- or anti-angiogenic effects of compounds in a relatively controlled system.
血管生成是许多生理和病理过程不可或缺的一部分,是一个受到严格调控的多步骤过程。血管生成检测用于阐明分子机制并筛选药理抑制剂。然而,大多数体外血管生成模型仅测量该过程的一个方面,而体内检测则复杂且难以解释。离体主动脉环模型能够研究血管生成的许多关键特征,如内皮细胞激活、分支和重塑,以及随后的周细胞募集等步骤。该模型可以进行修改以纳入基因操作,并可用于在相对可控的系统中评估化合物的促血管生成或抗血管生成作用。