小鼠体内Notch1激活会导致由ephrinB2和EphB4突变体模拟的动静脉畸形。
Notch1 activation in mice causes arteriovenous malformations phenocopied by ephrinB2 and EphB4 mutants.
作者信息
Krebs Luke T, Starling Christa, Chervonsky Alexander V, Gridley Thomas
出版信息
Genesis. 2010 Mar;48(3):146-50. doi: 10.1002/dvg.20599.
Abstract
Notch signaling is essential for embryonic vascular development in mammals and other vertebrates. Here we show that mouse embryos with conditional activation of the Notch1 gene in endothelial cells (Notch1 gain of function embryos) exhibit defects in vascular remodeling increased diameter of the dorsal aortae, and form arteriovenous malformations. Conversely, embryos with either constitutive or endothelial cell-specific Notch1 gene deletion also have vascular defects, but exhibit decreased diameter of the dorsal aortae and form arteriovenous malformations distinctly different from the Notch1 gain of function mutants. Surprisingly, embryos homozygous for mutations of the ephrinB/EphB pathway genes Efnb2 and Ephb4 exhibit vascular defects and arteriovenous malformations that phenocopy the Notch1 gain of function mutants. These results suggest that formation of arteriovenous malformations in Notch1 gain of function mutants and ephrinB/EphB pathway loss of function mutant embryos occurs by different mechanisms.
摘要
Notch信号通路对于哺乳动物和其他脊椎动物的胚胎血管发育至关重要。在此我们表明,在内皮细胞中条件性激活Notch1基因的小鼠胚胎(Notch1功能获得性胚胎)在血管重塑方面存在缺陷,背主动脉直径增加,并形成动静脉畸形。相反,具有组成型或内皮细胞特异性Notch1基因缺失的胚胎也有血管缺陷,但背主动脉直径减小,并形成与Notch1功能获得性突变体明显不同的动静脉畸形。令人惊讶的是,ephrinB/EphB通路基因Efnb2和Ephb4突变的纯合胚胎表现出血管缺陷和动静脉畸形,其表型与Notch1功能获得性突变体相似。这些结果表明,Notch1功能获得性突变体和ephrinB/EphB通路功能丧失性突变体胚胎中动静脉畸形的形成是通过不同机制发生的。
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