通过Notch1和Notch4的ADAM10依赖性信号传导控制器官特异性血管床的发育。
ADAM10-Dependent Signaling Through Notch1 and Notch4 Controls Development of Organ-Specific Vascular Beds.
作者信息
Alabi Rolake O, Glomski Krzysztof, Haxaire Coline, Weskamp Gisela, Monette Sébastien, Blobel Carl P
机构信息
From the Arthritis and Tissue Degeneration Program, Hospital for Special Surgery, New York, NY (R.O.A., K.G., C.H., G.W., C.P.B.); Weill Cornell/Rockefeller/Sloan-Kettering Tri-Institutional MD-PhD Program, New York, NY (R.O.A., K.G., C.P.B.); Tri-Institutional Laboratory of Comparative Pathology, Memorial Sloan-Kettering Cancer Center, Weill Cornell Medicine, Rockefeller University, New York, NY (S.M.); Institute for Advanced Study, Technical University Munich, Munich, Germany (C.P.B.); and Departments of Medicine and of Physiology, Systems Biology and Biophysics, Weill Cornell Medicine, New York, NY (C.P.B.).
出版信息
Circ Res. 2016 Aug 5;119(4):519-31. doi: 10.1161/CIRCRESAHA.115.307738. Epub 2016 Jun 27.
RATIONALE
Endothelial Notch signaling is critical for early vascular development and survival. Yet, previously described mice lacking endothelial a disintegrin and metalloproteinase 10 (ADAM10), a key regulator of Notch signaling, survived into adulthood with organ-specific vascular defects. These findings raised questions about whether these vascular defects were related to Notch signaling or other functions of ADAM10.
OBJECTIVE
The aims of the study are to determine whether compensatory or redundant functions of ADAM17 in Notch signaling can explain the survival of Adam10ΔEC mice, explore the contribution of different Tie2-Cre transgenes to the differences in survival, and establish whether the Adam10ΔEC vascular phenotypes can be recapitulated by inactivation of Notch receptors in endothelial cells.
METHODS AND RESULTS
Mice lacking ADAM10 and ADAM17 in endothelial cells (Adam10/Adam17ΔEC), which survived postnatally with organ-specific vascular defects, resembled Adam10ΔEC mice. In contrast, Adam10ΔEC mice generated with the Tie2Cre transgene previously used to inactivate endothelial Notch (Adam10ΔEC(Flv)) died by E10.5. Quantitative polymerase chain reaction analysis demonstrated that Cre-mediated recombination occurs earlier in Adam10ΔEC(Flv) mice than in the previously described Adam10ΔEC mice. Finally, mice lacking endothelial Notch1 (Notch1ΔEC) share some organ-specific vascular defects with Adam10ΔEC mice, whereas Notch4(-/-) mice lacking endothelial Notch1 (Notch1ΔEC/Notch4(-/-)) had defects in all vascular beds affected in Adam10ΔEC mice.
CONCLUSIONS
Our results argue against a major role for ADAM17 in endothelial Notch signaling and clarify the difference in phenotypes of previously described mice lacking ADAM10 or Notch in endothelial cells. Most notably, these findings uncover new roles for Notch signaling in the development of organ-specific vascular beds.
原理
内皮细胞中的Notch信号对于早期血管发育和存活至关重要。然而,先前描述的缺乏内皮解整合素和金属蛋白酶10(ADAM10)(Notch信号的关键调节因子)的小鼠存活至成年期,但存在器官特异性血管缺陷。这些发现引发了关于这些血管缺陷是否与Notch信号或ADAM10的其他功能相关的问题。
目的
本研究的目的是确定ADAM17在Notch信号中的代偿或冗余功能是否可以解释Adam10ΔEC小鼠的存活情况,探讨不同的Tie2-Cre转基因对存活差异的影响,并确定通过在内皮细胞中失活Notch受体是否可以重现Adam10ΔEC血管表型。
方法与结果
在内皮细胞中同时缺乏ADAM10和ADAM17(Adam10/Adam17ΔEC)的小鼠在出生后存活,但存在器官特异性血管缺陷,与Adam10ΔEC小鼠相似。相比之下,用先前用于失活内皮Notch的Tie2Cre转基因产生的Adam10ΔEC小鼠(Adam10ΔEC(Flv))在胚胎第10.5天死亡。定量聚合酶链反应分析表明,Cre介导的重组在Adam10ΔEC(Flv)小鼠中比在先前描述的Adam10ΔEC小鼠中发生得更早。最后,缺乏内皮Notch1(Notch1ΔEC)的小鼠与Adam10ΔEC小鼠有一些共同的器官特异性血管缺陷,而同时缺乏内皮Notch1和Notch4(Notch1ΔEC/Notch4(-/-))的小鼠在Adam10ΔEC小鼠受影响的所有血管床中都有缺陷。
结论
我们的结果表明ADAM17在内皮Notch信号中不起主要作用,并阐明了先前描述的在内皮细胞中缺乏ADAM10或Notch的小鼠的表型差异。最值得注意的是,这些发现揭示了Notch信号在器官特异性血管床发育中的新作用。
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