特定区域的转录因子调控胚胎大脑中的血管生成梯度。
Compartment-specific transcription factors orchestrate angiogenesis gradients in the embryonic brain.
作者信息
Vasudevan Anju, Long Jason E, Crandall James E, Rubenstein John L R, Bhide Pradeep G
机构信息
Neurology, Massachusetts General Hospital and Harvard Medical School, Charlestown, Massachusetts 02129, USA.
出版信息
Nat Neurosci. 2008 Apr;11(4):429-39. doi: 10.1038/nn2074. Epub 2008 Mar 16.
Abstract
Prevailing notions of cerebral vascularization imply that blood vessels sprout passively into the brain parenchyma from pial vascular plexuses to meet metabolic needs of growing neuronal populations. Endothelial cells, building blocks of blood vessels, are thought to be homogeneous in the brain with respect to their origins, gene expression patterns and developmental mechanisms. These current notions that cerebral angiogenesis is regulated by local environmental signals contrast with current models of cell-autonomous regulation of neuronal development. Here we demonstrate that telencephalic angiogenesis in mice progresses in an orderly, ventral-to-dorsal gradient regulated by compartment-specific homeobox transcription factors. Our data offer new perspectives on intrinsic regulation of angiogenesis in the embryonic telencephalon, call for a revision of the current models of telencephalic angiogenesis and support novel roles for endothelial cells in brain development.
摘要
关于脑血管形成的普遍观点认为,血管从软脑膜血管丛被动地向脑实质内生长,以满足不断增长的神经元群体的代谢需求。血管的基本组成部分内皮细胞,被认为在大脑中其起源、基因表达模式和发育机制方面是同质的。目前认为脑血管生成受局部环境信号调节的观点,与当前神经元发育的细胞自主调节模型形成对比。在这里,我们证明小鼠端脑的血管生成以有序的腹侧到背侧梯度进行,受特定区域的同源框转录因子调节。我们的数据为胚胎端脑血管生成的内在调节提供了新的视角,呼吁对当前的端脑血管生成模型进行修订,并支持内皮细胞在脑发育中的新作用。
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