p300乙酰转移酶活性在心脏、肺和小肠形成中的重要作用。

Essential function of p300 acetyltransferase activity in heart, lung and small intestine formation.

作者信息

Shikama Noriko, Lutz Werner, Kretzschmar Ralph, Sauter Nadine, Roth Jeanne-Françoise, Marino Silvia, Wittwer Jonas, Scheidweiler Alexander, Eckner Richard

机构信息

Institute for Molecular Biology, University of Zurich, 8057 Zurich, Switzerland.

出版信息

EMBO J. 2003 Oct 1;22(19):5175-85. doi: 10.1093/emboj/cdg502.

DOI:10.1093/emboj/cdg502

PMID:14517255

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC204485/

Abstract

p300 and CBP are large nuclear acetyltransferases exhibiting a complex multi-domain structure. Mouse embryos nullizygous for either p300 or Cbp die at midgestation, while heterozygotes are viable but in part display defects in neurulation or bone morphogenesis. To directly examine the contribution of the acetyltransferase (AT) activity to mouse development, we have abrogated this function by a knock-in approach. Remarkably, a single AT-deficient allele of p300 or Cbp leads to embryonic or neonatal lethality, indicating that the mutant alleles are dominant. Formation of the cardiovascular system, the lung and the small intestine are strongly impaired in p300 AT and to a much lesser extent in Cbp AT mutant embryos, a difference that is also reflected by the defects in gene expression. Embryonic stem cells homozygous for either the p300 AT or a p300 null mutation respond differently to BMP2 stimulation, indicating that the two alleles are not equivalent. Unexpectedly, the p300 AT-mutant cells upregulate BMP-inducible genes to levels similar or even higher than observed in wild-type cells.

摘要

p300和CBP是大型核乙酰转移酶，具有复杂的多结构域结构。p300或Cbp基因纯合缺失的小鼠胚胎在妊娠中期死亡，而杂合子是存活的，但部分表现出神经胚形成或骨形态发生缺陷。为了直接研究乙酰转移酶（AT）活性对小鼠发育的贡献，我们通过敲入方法消除了该功能。值得注意的是，p300或Cbp的单个AT缺陷等位基因会导致胚胎或新生儿死亡，表明突变等位基因是显性的。在p300 AT突变胚胎中，心血管系统、肺和小肠的形成受到严重损害，而在Cbp AT突变胚胎中受损程度要小得多，这种差异也反映在基因表达缺陷上。p300 AT纯合或p300基因完全缺失突变的胚胎干细胞对BMP2刺激的反应不同，表明这两个等位基因并不等同。出乎意料的是，p300 AT突变细胞将BMP诱导基因上调至与野生型细胞相似甚至更高的水平。

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