Notch-Tnf信号通路对于动脉瓣的发育和稳态是必需的。
Notch-Tnf signalling is required for development and homeostasis of arterial valves.
作者信息
Wang Yidong, Wu Bingruo, Farrar Emily, Lui Wendy, Lu Pengfei, Zhang Donghong, Alfieri Christina M, Mao Kai, Chu Ming, Yang Di, Xu Di, Rauchman Michael, Taylor Verdon, Conway Simon J, Yutzey Katherine E, Butcher Jonathan T, Zhou Bin
机构信息
Department of Genetics, Pediatrics, and Medicine (Cardiology), Wilf Cardiovascular Research Institute, Albert Einstein College of Medicine, Price 420, 1301 Morris Park Avenue, Bronx, NY 14061, USA.
Department of Biomedical Engineering, Cornell University, Ithaca, NY, USA.
出版信息
Eur Heart J. 2017 Mar 1;38(9):675-686. doi: 10.1093/eurheartj/ehv520.
AIMS
Congenital anomalies of arterial valves are common birth defects, leading to valvar stenosis. With no pharmaceutical treatment that can prevent the disease progression, prosthetic replacement is the only choice of treatment, incurring considerable morbidity and mortality. Animal models presenting localized anomalies and stenosis of congenital arterial valves similar to that of humans are critically needed research tools to uncover developmental molecular mechanisms underlying this devastating human condition.
METHODS AND RESULTS
We generated and characterized mouse models with conditionally altered Notch signalling in endothelial or interstitial cells of developing valves. Mice with inactivation of Notch1 signalling in valvar endothelial cells (VEC) developed congenital anomalies of arterial valves including bicuspid aortic valves and valvar stenosis. Notch1 signalling in VEC was required for repressing proliferation and activating apoptosis of valvar interstitial cells (VIC) after endocardial-to-mesenchymal transformation (EMT). We showed that Notch signalling regulated Tnfα expression in vivo, and Tnf signalling was necessary for apoptosis of VIC and post-EMT development of arterial valves. Furthermore, activation or inhibition of Notch signalling in cultured pig aortic VEC-promoted or suppressed apoptosis of VIC, respectively.
CONCLUSION
We have now met the need of critical animal models and shown that Notch-Tnf signalling balances proliferation and apoptosis for post-EMT development of arterial valves. Our results suggest that mutations in its components may lead to congenital anomaly of aortic valves and valvar stenosis in humans.
目的
动脉瓣膜先天性异常是常见的出生缺陷,可导致瓣膜狭窄。由于没有能阻止疾病进展的药物治疗方法,人工瓣膜置换是唯一的治疗选择,会带来相当高的发病率和死亡率。亟需能呈现与人类相似的先天性动脉瓣膜局部异常和狭窄的动物模型,以揭示这种严重人类疾病背后的发育分子机制。
方法与结果
我们构建并鉴定了在发育中瓣膜的内皮细胞或间质细胞中有条件改变Notch信号的小鼠模型。瓣膜内皮细胞(VEC)中Notch1信号失活的小鼠出现了动脉瓣膜先天性异常,包括二叶式主动脉瓣和瓣膜狭窄。心内膜间充质转化(EMT)后,VEC中的Notch1信号对于抑制瓣膜间质细胞(VIC)的增殖和激活其凋亡是必需的。我们发现Notch信号在体内调节肿瘤坏死因子α(Tnfα)的表达,并且Tnf信号对于VIC的凋亡和动脉瓣膜EMT后的发育是必需的。此外,在培养的猪主动脉VEC中激活或抑制Notch信号分别促进或抑制了VIC的凋亡。
结论
我们现在满足了关键动物模型的需求,并表明Notch - Tnf信号平衡了增殖和凋亡,以促进动脉瓣膜EMT后的发育。我们的结果表明,其组成成分的突变可能导致人类主动脉瓣膜先天性异常和瓣膜狭窄。
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