Bmpr1a和Tak1中的复合突变通过增加细胞死亡协同导致面部畸形。

Compound mutations in Bmpr1a and Tak1 synergize facial deformities via increased cell death.

作者信息

Liu Xia, Hayano Satoru, Pan Haichun, Inagaki Maiko, Ninomiya-Tsuji Jun, Sun Hongchen, Mishina Yuji

机构信息

Department of Biologic and Materials Sciences, University of Michigan, School of Dentistry, Ann Arbor, Michigan.

Department of Oral Pathology, School and Hospital of Stomatology, Jilin University, Changchun, China.

出版信息

Genesis. 2018 Mar;56(3):e23093. doi: 10.1002/dvg.23093. Epub 2018 Feb 22.

DOI:10.1002/dvg.23093

PMID:29411501

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5854540/

Abstract

BMP signaling plays a critical role in craniofacial development. Augmentation of BMPR1A signaling through neural crest-specific expression of constitutively active Bmpr1a (caBmpr1a) results in craniofacial deformities in mice. To investigate whether deletion of Tak1 may rescue the craniofacial deformities caused by enhanced Smad-dependent signaling through caBMPR1A, we generated embryos to activate transcription of caBmpr1a transgene and ablate Tak1 in neural crest derivatives at the same time. We found that deformities of the double mutant mice showed more severe than those with each single mutation, including median facial cleft and cleft palate. We found higher levels of cell death in the medial nasal and the lateral nasal processes at E10.5 in association with higher levels of p53 in the double mutant embryos. We also found higher levels of pSmad1/5/9 in the lateral nasal processes at E10.5 in the double mutant embryos. Western analyses revealed that double mutant embryos showed similar degrees of upregulation of pSmad1/5/9 with caBmpr1a or Tak1-cKO embryos while the double mutant embryos showed higher levels of phospho-p38 than caBmpr1a or Tak1-cKO embryos at E17.5, but not at E10.5. It suggested that deletion of Tak1 aggravates the craniofacial deformities of the caBmpr1a mutants by increasing p53 and phospho-p38 at different stage of embryogenesis.

摘要

骨形态发生蛋白（BMP）信号通路在颅面发育中起关键作用。通过组成型激活的Bmpr1a（caBmpr1a）在神经嵴特异性表达来增强BMPR1A信号传导，会导致小鼠出现颅面畸形。为了研究Tak1的缺失是否可以挽救由caBMPR1A增强的Smad依赖性信号传导引起的颅面畸形，我们构建了胚胎，以激活caBmpr1a转基因的转录，并同时在神经嵴衍生物中敲除Tak1。我们发现双突变小鼠的畸形比每个单突变小鼠的更严重，包括正中面部裂和腭裂。我们发现在E10.5时，双突变胚胎的内侧鼻突和外侧鼻突中的细胞死亡水平更高，同时p53水平也更高。我们还发现在E10.5时，双突变胚胎的外侧鼻突中pSmad1/5/9水平更高。蛋白质免疫印迹分析显示，双突变胚胎中pSmad1/5/9的上调程度与caBmpr1a或Tak1条件性敲除（cKO）胚胎相似，而在E17.5时，双突变胚胎中磷酸化p38的水平高于caBmpr1a或Tak1-cKO胚胎，但在E10.5时并非如此。这表明在胚胎发育的不同阶段，Tak1的缺失通过增加p53和磷酸化p38而加重了caBmpr1a突变体的颅面畸形。

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本文引用的文献

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J Biol Chem. 2013 Apr 12;288(15):10440-50. doi: 10.1074/jbc.M112.432286. Epub 2013 Mar 4.

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