生化因子与壁面剪应力对血管生成芽的协同调节
Synergistic Regulation of Angiogenic Sprouting by Biochemical Factors and Wall Shear Stress.
作者信息
Kaunas Roland, Kang Hojin, Bayless Kayla J
机构信息
Department of Biomedical Engineering, Texas A&M University, Texas.
出版信息
Cell Mol Bioeng. 2011 Dec;4(4):547-559. doi: 10.1007/s12195-011-0208-5.
Abstract
The process of sprouting angiogenesis involves activating endothelial cells in a quiescent monolayer of an existing vessel to degrade and migrate into the underlying matrix to form new blood vessels. While the roles of biochemical factors in angiogenic sprouting have been well characterized, the roles of fluid forces have received much less attention. This review summarizes results that support a role for wall shear stress in post-capillary venules as a mechanical factor capable of synergizing with biochemical factors to stimulate pro-angiogenic signaling in endothelial cells and promote sprout formation.
摘要
发芽血管生成过程涉及激活现有血管静止单层中的内皮细胞,使其降解并迁移到下层基质中以形成新血管。虽然生化因子在血管生成发芽中的作用已得到充分表征,但流体动力的作用却很少受到关注。本综述总结了一些结果,这些结果支持毛细血管后微静脉中的壁面剪应力作为一种机械因子,能够与生化因子协同作用,刺激内皮细胞中的促血管生成信号并促进芽的形成。
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