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Histone deacetylase 3 promotes liver regeneration and liver cancer cells proliferation through signal transducer and activator of transcription 3 signaling pathway.组蛋白去乙酰化酶 3 通过信号转导子和转录激活子 3 信号通路促进肝脏再生和肝癌细胞增殖。
Cell Death Dis. 2018 Mar 14;9(3):398. doi: 10.1038/s41419-018-0428-x.
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RAS-mediated oncogenic signaling pathways in human malignancies.人类恶性肿瘤中 RAS 介导的致癌信号通路。
Semin Cancer Biol. 2019 Feb;54:1-13. doi: 10.1016/j.semcancer.2018.03.001. Epub 2018 Mar 7.
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MYC-driven epigenetic reprogramming favors the onset of tumorigenesis by inducing a stem cell-like state.MYC 驱动的表观遗传重编程通过诱导类似干细胞的状态促进肿瘤发生。
Nat Commun. 2018 Mar 9;9(1):1024. doi: 10.1038/s41467-018-03264-2.
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Endogenously generated DNA nucleobase modifications source, and significance as possible biomarkers of malignant transformation risk, and role in anticancer therapy.内源性生成的 DNA 碱基修饰的来源、作为恶性转化风险的潜在生物标志物的意义,以及在抗癌治疗中的作用。
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Impact of nucleic acid and methylated H3K9 binding activities of Suv39h1 on its heterochromatin assembly.Suv39h1的核酸及甲基化H3K9结合活性对其异染色质组装的影响
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Histone H3K9 Acetyltransferase PCAF Is Essential for Osteogenic Differentiation Through Bone Morphogenetic Protein Signaling and May Be Involved in Osteoporosis.组蛋白H3K9乙酰转移酶PCAF通过骨形态发生蛋白信号通路对成骨分化至关重要,可能参与骨质疏松症的发生。
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Enhanced Histone Deacetylase Activity in Malignant Melanoma Provokes RAD51 and FANCD2-Triggered Drug Resistance.恶性黑素瘤中增强的组蛋白去乙酰化酶活性引发 RAD51 和 FANCD2 触发的药物耐药性。
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DNA damage and the balance between survival and death in cancer biology.在癌症生物学中,DNA 损伤与生存和死亡之间的平衡。
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HDAC8 Inhibition Specifically Targets Inv(16) Acute Myeloid Leukemic Stem Cells by Restoring p53 Acetylation.组蛋白去乙酰化酶8抑制通过恢复p53乙酰化特异性靶向inv(16)急性髓系白血病干细胞
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HDAC3 缺乏通过 H3K9ac/H3K9me3 转换缺陷促进肝癌发生。

HDAC3 Deficiency Promotes Liver Cancer through a Defect in H3K9ac/H3K9me3 Transition.

机构信息

Laboratory of Pathology, Key Laboratory of Transplant Engineering and Immunology, NHC, West China Hospital, Sichuan University, Chengdu, China.

School of Bioscience and Technology, Weifang Medical University, Weifang, China.

出版信息

Cancer Res. 2019 Jul 15;79(14):3676-3688. doi: 10.1158/0008-5472.CAN-18-3767. Epub 2019 May 16.

DOI:10.1158/0008-5472.CAN-18-3767
PMID:31097476
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6679938/
Abstract

DNA damage triggers diverse cancers, particularly hepatocellular carcinoma (HCC), but the intrinsic link between DNA damage and tumorigenesis remains unclear. Because of its role as an epigenetic and transcriptional regulator, histone deacetylase 3 (HDAC3) is essential for DNA damage control and is often aberrantly expressed in human HCC. In this study, we used individual class I HDAC member-deficient mice to demonstrate that K9 in histone H3 (H3K9), which is the critical site for the assembly of DNA damage response complexes, is exclusively targeted by HDAC3. Ablation of HDAC3 disrupted the deacetylation and consequent trimethylation of H3K9 (H3K9me3), the first step in double-strand break repair, and led to the accumulation of damaged DNA. Simultaneously, hyperacetylated H3K9 (H3K9ac) served as a transcriptional activator and enhanced multiple signaling pathways to promote tumorigenesis. Together, these results show that HDAC3 targets the H3K9ac/H3K9me3 transition to serve as a critical regulator that controls both DNA damage repair and the transcription of many tumor-related genes. Moreover, these findings provide novel insights into the link between DNA damage and transcriptional reprogramming in tumorigenesis. SIGNIFICANCE: These findings show that HDAC3 exclusively regulates H3K9ac in response to DNA damage, and loss of HDAC3 activity shifts the balance from DNA damage control to protumorigenic transcriptional activity.

摘要

DNA 损伤引发多种癌症,特别是肝细胞癌(HCC),但 DNA 损伤与肿瘤发生之间的内在联系尚不清楚。由于其作为表观遗传和转录调节剂的作用,组蛋白去乙酰化酶 3(HDAC3)对于 DNA 损伤控制至关重要,并且在人类 HCC 中经常异常表达。在这项研究中,我们使用单个 I 类组蛋白去乙酰化酶成员缺失小鼠证明,组蛋白 H3(H3)上的 K9(H3K9)是 DNA 损伤反应复合物组装的关键位点,仅被 HDAC3 靶向。HDAC3 的缺失破坏了 H3K9 的去乙酰化和随后的三甲基化(H3K9me3),这是双链断裂修复的第一步,并导致受损 DNA 的积累。同时,过度乙酰化的 H3K9(H3K9ac)作为转录激活剂并增强多条信号通路以促进肿瘤发生。总之,这些结果表明,HDAC3 靶向 H3K9ac/H3K9me3 转换,作为一种关键调节剂,控制 DNA 损伤修复和许多与肿瘤相关的基因的转录。此外,这些发现为 DNA 损伤与肿瘤发生中的转录重编程之间的联系提供了新的见解。意义:这些发现表明,HDAC3 专门调节 DNA 损伤反应中的 H3K9ac,而 HDAC3 活性的丧失将平衡从 DNA 损伤控制转移到促肿瘤转录活性。