Mbd2的缺乏会减弱Wnt信号传导。
Deficiency of Mbd2 attenuates Wnt signaling.
作者信息
Phesse Toby J, Parry Lee, Reed Karen R, Ewan Kenneth B, Dale Trevor C, Sansom Owen J, Clarke Alan R
机构信息
Cardiff School of Biosciences, Cardiff University, Cardiff CF10 3US, United Kingdom.
出版信息
Mol Cell Biol. 2008 Oct;28(19):6094-103. doi: 10.1128/MCB.00539-08. Epub 2008 Jul 21.
Abstract
We have previously shown that deficiency of the methyl binding domain protein Mbd2 dramatically reduces adenoma burden on an Apc(Min/+) background. To investigate the mechanism underlying this phenomenon, we have determined the effect of Mbd2 deficiency upon the phenotypes imposed by the conditional deletion of Apc in the small intestine. Microarray analysis demonstrated a partial suppression of the Wnt pathway in the absence of Mbd2. Mbd2 deficiency also influenced one immediate cellular consequence of Apc loss, with normalization of Paneth cell positioning. From a mechanistic perspective, we show that deficiency of Mbd2 elevates levels of the known Wnt target Lect2, and we confirm here that Mbd2 binds the Lect2 promoter in association with NuRD. Furthermore, we show that Lect2 is capable of functioning as a Wnt pathway repressor. These results therefore provide a mechanistic basis for the epigenetic control of adenoma formation mediated through Mbd2.
摘要
我们之前已经表明,甲基结合域蛋白Mbd2的缺失在Apc(Min/+)背景下显著降低了腺瘤负担。为了研究这一现象背后的机制,我们确定了Mbd2缺失对小肠中Apc条件性缺失所导致的表型的影响。微阵列分析表明,在没有Mbd2的情况下,Wnt信号通路受到部分抑制。Mbd2的缺失还影响了Apc缺失的一个直接细胞后果,即潘氏细胞定位正常化。从机制角度来看,我们发现Mbd2的缺失会提高已知的Wnt靶标Lect2的水平,并且我们在此证实Mbd2与NuRD结合并结合到Lect2启动子上。此外,我们表明Lect2能够作为Wnt信号通路的抑制剂发挥作用。因此,这些结果为通过Mbd2介导的腺瘤形成的表观遗传控制提供了机制基础。
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