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微小RNA-101通过逆转PRDM16启动子的低甲基化来破坏星形细胞瘤细胞的线粒体功能。

miR-101 reverses hypomethylation of the PRDM16 promoter to disrupt mitochondrial function in astrocytoma cells.

作者信息

Lei Qianqian, Liu Xiaoping, Fu Haijuan, Sun Yingnan, Wang Liping, Xu Gang, Wang Wei, Yu Zhibin, Liu Changhong, Li Peiyao, Feng Jianbo, Li Guiyuan, Wu Minghua

机构信息

Hunan Provincial Tumor Hospital and The Affiliated Tumor Hospital of Xiangya Medical School, Central South University, Changsha 410013, Hunan, China.

Cancer Research Institute, School of Basic Medical Science, Central South University, Key Laboratory of Carcinogenesis and Cancer Invasion, Ministry of Education, Key Laboratory of Carcinogenesis, Ministry of Health, Changsha 410078, Hunan, China.

出版信息

Oncotarget. 2016 Jan 26;7(4):5007-22. doi: 10.18632/oncotarget.6652.

DOI:10.18632/oncotarget.6652
PMID:26701852
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4826261/
Abstract

Our previous report identified PR domain containing 16 (PRDM16), a member of the PR-domain gene family, as a new methylation associated gene in astrocytoma cells. This previous study also reported that miR-101 is a tumor suppressor in glioma. The present study confirms that PRDM16 is a hypomethylated gene that can be overexpressed in astrocytoma patients and demonstrates that the hypomethylation status of the PRDM16 promoter can predict poor prognoses for astrocytoma patients. The results reported herein show that PRDM16 was inhibited by miR-101 directly and also through epigenetic regulation. PRDM16 was confirmed as a new target of miR-101 and shown to be directly inhibited by miR-101. miR-101 also decreased the expression of PRDM16 by altering the methylation status of the PRDM16 promoter. miR-101 was associated with a decrease in the methylation-related histones H3K4me2 and H3K27me3 and an increase in H3K9me3 and H4K20me3 on the PRDM16 promoter. In addition, EZH2, EED and DNMT3A were identified as direct targets of miR-101, and miR-101 suppressed PRDM16 expression by targeting DNMT3A which decreases histone H3K27me3 and H3K4me2 at the PRDM16 core promoter. The results reported here demonstrate that miR-101 disrupted cellular mitochondrial function and induced cellular apoptosis via the mitochondrial pathway; for example, MMP and ATP levels decreased, while there was an increase in ADP/ATP ratios and ROS levels, levels of cleaved Caspase-9 and cleaved-PARP, the Bax/Bcl-2 ratios, and Smac release from the mitochondria to the cytoplasm. Knockdown of PRDM16 reversed the anti-apoptotic effect of miR-101 inhibition. In summary, miR-101 reversed the hypomethylation of the PRDM16 promoter which suppressed the expression of PRDM16, disrupted cellular mitochondrial function, and induced cellular apoptosis.

摘要

我们之前的报告确定了含PR结构域16(PRDM16),即PR结构域基因家族的一个成员,为星形细胞瘤细胞中一个新的甲基化相关基因。之前的这项研究还报告称,miR-101是胶质瘤中的一种肿瘤抑制因子。本研究证实PRDM16是一个低甲基化基因,在星形细胞瘤患者中可过度表达,并表明PRDM16启动子的低甲基化状态可预测星形细胞瘤患者的不良预后。本文报道的结果显示,PRDM16受到miR-101的直接抑制,并且也通过表观遗传调控受到抑制。PRDM16被确认为miR-101的一个新靶点,并显示受到miR-101的直接抑制。miR-101还通过改变PRDM16启动子的甲基化状态降低PRDM16的表达。miR-101与PRDM16启动子上甲基化相关组蛋白H3K4me2和H3K27me3的减少以及H3K9me3和H4K20me3的增加相关。此外,EZH2、EED和DNMT3A被确定为miR-101的直接靶点,并且miR-101通过靶向DNMT3A抑制PRDM16表达,DNMT3A可降低PRDM16核心启动子处的组蛋白H3K27me3和H3K4me2。本文报道的结果表明,miR-101通过线粒体途径破坏细胞线粒体功能并诱导细胞凋亡;例如,线粒体膜电位(MMP)和ATP水平降低,而ADP/ATP比值和活性氧(ROS)水平升高,裂解的Caspase-9和裂解的聚(ADP-核糖)聚合酶(PARP)水平升高,Bax/Bcl-2比值升高,以及Smac从线粒体释放到细胞质中。敲低PRDM16可逆转miR-101抑制的抗凋亡作用。总之,miR-101逆转了PRDM16启动子的低甲基化,后者抑制了PRDM16的表达,破坏了细胞线粒体功能,并诱导了细胞凋亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/3a59217e5e8b/oncotarget-07-5007-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/381f77c326e8/oncotarget-07-5007-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/18595470cc25/oncotarget-07-5007-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/cb3ce96a2ab0/oncotarget-07-5007-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/26b7a7f2d60a/oncotarget-07-5007-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/bd4d8c7a2542/oncotarget-07-5007-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/5d7e4e0d5a27/oncotarget-07-5007-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/3a59217e5e8b/oncotarget-07-5007-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/381f77c326e8/oncotarget-07-5007-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/18595470cc25/oncotarget-07-5007-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/cb3ce96a2ab0/oncotarget-07-5007-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/26b7a7f2d60a/oncotarget-07-5007-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/bd4d8c7a2542/oncotarget-07-5007-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/5d7e4e0d5a27/oncotarget-07-5007-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/274e/4826261/3a59217e5e8b/oncotarget-07-5007-g007.jpg

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