组蛋白H3K4甲基化通过Mad2的直接结合来调节纺锤体组装检查点的失活。

Histone H3K4 methylation regulates deactivation of the spindle assembly checkpoint through direct binding of Mad2.

作者信息

Schibler Andria, Koutelou Evangelia, Tomida Junya, Wilson-Pham Marenda, Wang Li, Lu Yue, Cabrera Alexa Parra, Chosed Renee J, Li Wenqian, Li Bing, Shi Xiaobing, Wood Richard D, Dent Sharon Y R

机构信息

Program in Genes and Development, The University of Texas M.D. Anderson Cancer Center, Houston, Texas 77030, USA; The Graduate School of Biomedical Sciences (GSBS) at Houston, Houston, Texas 77030, USA; Center for Cancer Epigenetics, The University of Texas M.D. Anderson Cancer Center, Houston, Texas 77030, USA; Department of Epigenetics and Molecular Carcinogenesis, The University of Texas M.D. Anderson Cancer Center, Houston, Texas 77030, USA;

Center for Cancer Epigenetics, The University of Texas M.D. Anderson Cancer Center, Houston, Texas 77030, USA; Department of Epigenetics and Molecular Carcinogenesis, The University of Texas M.D. Anderson Cancer Center, Houston, Texas 77030, USA;

出版信息

Genes Dev. 2016 May 15;30(10):1187-97. doi: 10.1101/gad.278887.116. Epub 2016 May 19.

DOI:10.1101/gad.278887.116

PMID:27198228

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4888839/

Abstract

Histone H3 methylation on Lys4 (H3K4me) is associated with active gene transcription in all eukaryotes. In Saccharomyces cerevisiae, Set1 is the sole lysine methyltransferase required for mono-, di-, and trimethylation of this site. Although H3K4me3 is linked to gene expression, whether H3K4 methylation regulates other cellular processes, such as mitosis, is less clear. Here we show that both Set1 and H3K4 mutants display a benomyl resistance phenotype that requires components of the spindle assembly checkpoint (SAC), including Bub3 and Mad2. These proteins inhibit Cdc20, an activator of the anaphase-promoting complex/cyclosome (APC/C). Mutations in Cdc20 that block Mad2 interactions suppress the benomyl resistance of both set1 and H3K4 mutant cells. Furthermore, the HORMA domain in Mad2 directly binds H3, identifying a new histone H3 "reader" motif. Mad2 undergoes a conformational change important for execution of the SAC. We found that the closed (active) conformation of both yeast and human Mad2 is capable of binding methylated H3K4, but, in contrast, the open (inactive) Mad2 conformation limits interaction with methylated H3. Collectively, our data indicate that interactions between Mad2 and H3K4 regulate resolution of the SAC by limiting closed Mad2 availability for Cdc20 inhibition.

摘要

组蛋白H3赖氨酸4位点甲基化（H3K4me）与所有真核生物中的活跃基因转录相关。在酿酒酵母中，Set1是该位点单甲基化、二甲基化和三甲基化所需的唯一赖氨酸甲基转移酶。虽然H3K4me3与基因表达有关，但H3K4甲基化是否调节其他细胞过程，如有丝分裂，尚不清楚。在这里，我们表明Set1和H3K4突变体均表现出对苯菌灵的抗性表型，这需要纺锤体组装检查点（SAC）的组分，包括Bub3和Mad2。这些蛋白抑制后期促进复合物/细胞周期体（APC/C）的激活剂Cdc20。阻断Mad2相互作用的Cdc20突变可抑制set1和H3K4突变体细胞对苯菌灵的抗性。此外，Mad2中的HORMA结构域直接结合H3，确定了一个新的组蛋白H3“读取器”基序。Mad2发生对SAC执行很重要的构象变化。我们发现酵母和人类Mad2的闭合（活性）构象都能够结合甲基化的H3K4，但相反，开放（非活性）的Mad2构象限制了与甲基化H3的相互作用。总体而言，我们的数据表明，Mad2与H3K4之间的相互作用通过限制可用于抑制Cdc20的闭合Mad2的可用性来调节SAC的分辨率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/19f1/4888839/dcd309bbc39d/1187f01.jpg

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组蛋白H3K4甲基化通过Mad2的直接结合来调节纺锤体组装检查点的失活。

Histone H3K4 methylation regulates deactivation of the spindle assembly checkpoint through direct binding of Mad2.

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