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Genome-wide studies reveal novel and distinct biological pathways regulated by SIN3 isoforms.全基因组研究揭示了由SIN3亚型调控的新的独特生物学途径。
BMC Genomics. 2016 Feb 13;17:111. doi: 10.1186/s12864-016-2428-5.
2
The histone demethylase dKDM5/LID interacts with the SIN3 histone deacetylase complex and shares functional similarities with SIN3.组蛋白去甲基化酶dKDM5/LID与SIN3组蛋白去乙酰化酶复合物相互作用,并与SIN3具有功能相似性。
Epigenetics Chromatin. 2016 Feb 3;9:4. doi: 10.1186/s13072-016-0053-9. eCollection 2016.
3
Disruption of Methionine Metabolism in Drosophila melanogaster Impacts Histone Methylation and Results in Loss of Viability.黑腹果蝇中甲硫氨酸代谢的破坏影响组蛋白甲基化并导致活力丧失。
G3 (Bethesda). 2015 Nov 6;6(1):121-32. doi: 10.1534/g3.115.024273.
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Serine and SAM Responsive Complex SESAME Regulates Histone Modification Crosstalk by Sensing Cellular Metabolism.丝氨酸和 SAM 反应性复合物 SESAME 通过感应细胞代谢来调节组蛋白修饰串扰。
Mol Cell. 2015 Nov 5;60(3):408-21. doi: 10.1016/j.molcel.2015.09.024. Epub 2015 Oct 29.
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Histone Methylation Dynamics and Gene Regulation Occur through the Sensing of One-Carbon Metabolism.组蛋白甲基化动力学和基因调控通过一碳代谢感知发生。
Cell Metab. 2015 Nov 3;22(5):861-73. doi: 10.1016/j.cmet.2015.08.024. Epub 2015 Sep 24.
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Loss of histone deacetylase Hdac1 disrupts metabolic processes in intestinal epithelial cells.组蛋白去乙酰化酶Hdac1的缺失会破坏肠道上皮细胞的代谢过程。
FEBS Lett. 2015 Sep 14;589(19 Pt B):2776-83. doi: 10.1016/j.febslet.2015.08.009. Epub 2015 Aug 20.
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SIN3 is critical for stress resistance and modulates adult lifespan.SIN3对于抗逆性至关重要,并调节成年个体的寿命。
Aging (Albany NY). 2014 Aug;6(8):645-60. doi: 10.18632/aging.100684.
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An atlas of genetic influences on human blood metabolites.人类血液代谢物遗传影响图谱。
Nat Genet. 2014 Jun;46(6):543-550. doi: 10.1038/ng.2982. Epub 2014 May 11.
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Methionine metabolism regulates maintenance and differentiation of human pluripotent stem cells.蛋氨酸代谢调控人类多能干细胞的维持和分化。
Cell Metab. 2014 May 6;19(5):780-94. doi: 10.1016/j.cmet.2014.03.017. Epub 2014 Apr 17.
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FlyBase 102--advanced approaches to interrogating FlyBase.FlyBase 102--高级方法探索 FlyBase。
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转录共抑制因子SIN3直接调控参与甲硫氨酸分解代谢的基因并影响组蛋白甲基化,将表观遗传学与代谢联系起来。

The Transcriptional Corepressor SIN3 Directly Regulates Genes Involved in Methionine Catabolism and Affects Histone Methylation, Linking Epigenetics and Metabolism.

作者信息

Liu Mengying, Pile Lori A

机构信息

From the Department of Biological Sciences, Wayne State University, Detroit, Michigan 48202.

From the Department of Biological Sciences, Wayne State University, Detroit, Michigan 48202.

出版信息

J Biol Chem. 2017 Feb 3;292(5):1970-1976. doi: 10.1074/jbc.M116.749754. Epub 2016 Dec 27.

DOI:10.1074/jbc.M116.749754
PMID:28028175
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5290966/
Abstract

Chromatin modification and cellular metabolism are tightly connected. Chromatin modifiers regulate the expression of genes involved in metabolism and, in turn, the levels of metabolites. The generated metabolites are utilized by chromatin modifiers to affect epigenetic modification. The mechanism for this cross-talk, however, remains incompletely understood. The corepressor SIN3 controls histone acetylation through association with the histone deacetylase RPD3. The SIN3 complex is known to regulate genes involved in a number of metabolic processes. Here, we find that Drosophila SIN3 binds to the promoter region of genes involved in methionine catabolism and that this binding affects histone modification, which in turn influences gene expression. Specifically, we observe that reduced expression of SIN3 leads to an increase in S-adenosylmethionine (SAM), which is the major cellular donor of methyl groups for protein modification. Additionally, Sin3A knockdown results in an increase in global histone H3K4me3 levels. Furthermore, decreased H3K4me3 caused by knockdown of either SAM synthetase (Sam-S) or the histone methyltransferase Set1 is restored to near normal levels when SIN3 is also reduced. Taken together, these results indicate that knockdown of Sin3A directly alters the expression of methionine metabolic genes to increase SAM, which in turn leads to an increase in global H3K4me3. Our study reveals that SIN3 is an important epigenetic regulator directly connecting methionine metabolism and histone modification.

摘要

染色质修饰与细胞代谢紧密相连。染色质修饰因子调控参与代谢的基因的表达,反过来,代谢物的水平也会受到影响。生成的代谢物被染色质修饰因子利用以影响表观遗传修饰。然而,这种相互作用的机制仍未完全被理解。共抑制因子SIN3通过与组蛋白去乙酰化酶RPD3结合来控制组蛋白乙酰化。已知SIN3复合物调控参与多个代谢过程的基因。在此,我们发现果蝇SIN3与参与甲硫氨酸分解代谢的基因的启动子区域结合,并且这种结合影响组蛋白修饰,进而影响基因表达。具体而言,我们观察到SIN3表达降低会导致S-腺苷甲硫氨酸(SAM)增加,SAM是蛋白质修饰中甲基的主要细胞供体。此外,敲低Sin3A会导致整体组蛋白H3K4me3水平升高。再者,当同时降低SIN3时,由敲低SAM合成酶(Sam-S)或组蛋白甲基转移酶Set1所导致的H3K4me3降低恢复到接近正常水平。综上所述,这些结果表明敲低Sin3A直接改变甲硫氨酸代谢基因的表达以增加SAM,进而导致整体H3K4me3增加。我们的研究揭示SIN3是直接连接甲硫氨酸代谢和组蛋白修饰的重要表观遗传调节因子。