JMJD2B表观遗传调节因子的甲基化会不同程度地影响其协同激活ETV1和JUN转录因子的能力。

International journal of biochemistry and molecular biology Pub Date : 2023-12-15 eCollection Date: 2023-01-01
Tae-Dong Kim, Ruicai Gu, Ralf Janknecht
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引用次数: 0

摘要

研究目的含 Jumonji C 结构域(JMJD)的 2B(JMJD2B)是一种转录辅因子和组蛋白去甲基化酶,参与了前列腺癌的形成。然而,它的功能如何受翻译后修饰的调控一直是个谜。因此,我们研究了 JMJD2B 是否会受到赖氨酸甲基化的调控:方法:通过体外甲基化测定和使用甲基赖氨酸特异性抗体进行 Western 印迹,我们分析了 JMJD2B 中的赖氨酸甲基化。将鉴定出的甲基化赖氨酸残基突变为精氨酸残基,并在人 LNCaP 前列腺癌细胞中用报告基因检测法测定其对 JMJD2B 转录活性的影响:结果:我们发现 JMJD2B 有多达六个不同的赖氨酸残基被甲基化。结果:我们发现 JMJD2B 在多达六个不同的赖氨酸残基上被甲基化。此外,我们还发现变异抑制因子 3-9/Ehancer of zeste/trithorax (SET) domain-containing protein 7/9 (SET7/9) 是负责这种翻译后修饰的甲基转移酶。将 JMJD2B 中的甲基化位点突变为精氨酸残基会导致 Ju-nana (JUN) 转录因子的共激活作用减弱,而 JUN 是前列腺肿瘤中的一种已知致癌蛋白。与此相反,JMJD2B 的甲基化对其协同激活另一种与前列腺癌相关的转录因子--DNA 结合蛋白 E26 转化特异性(ETS)变体 1(ETV1)的能力没有影响。与JMJD2B、SET7/9和JUN在前列腺癌中的潜在联合作用相一致,JMJD2B在人类前列腺肿瘤中的表达与SET7/9和JUN的水平呈正相关:结论:已发现的 SET7/9 介导的 JMJD2B 甲基化似乎会影响其与前列腺癌细胞中某些相互作用转录因子的合作。鉴于 JMJD2B 在前列腺肿瘤发生之外的作用,SET7/9 介导的 JMJD2B 甲基化可能也会影响其他癌症的发展,而其损伤可能与肥胖或 JMJD2B 活性降低引起的整体发育延迟有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methylation of the JMJD2B epigenetic regulator differentially affects its ability to coactivate the ETV1 and JUN transcription factors.

Objectives: Jumonji C domain-containing (JMJD) 2B (JMJD2B) is a transcriptional cofactor and histone demethylase that is involved in prostate cancer formation. However, how its function is regulated by posttranslational modification has remained elusive. Hence, we examined if JMJD2B would be regulated by lysine methylation.

Methods: Through in vitro methylation assays and Western blotting with methyl-lysine specific antibodies, we analyzed lysine methylation within JMJD2B. Identified methylated lysine residues were mutated to arginine residues and the respective impact on JMJD2B transcriptional activity measured with a reporter gene assay in human LNCaP prostate cancer cells.

Results: We discovered that JMJD2B is methylated on up to six different lysine residues. Further, we identified the suppressor of variegation 3-9/enhancer of zeste/trithorax (SET) domain-containing protein 7/9 (SET7/9) as the methyltransferase being responsible for this posttranslational modification. Mutating the methylation sites in JMJD2B to arginine residues led to diminished coactivation of the Ju-nana (JUN) transcription factor, which is a known oncogenic protein in prostate tumors. In contrast, methylation of JMJD2B had no impact on its ability to coactivate another transcription factor associated with prostate cancer, the DNA-binding protein E26 transformation-specific (ETS) variant 1 (ETV1). Consistent with a potential joint action of JMJD2B, SET7/9 and JUN in prostate cancer, the expression of JMJD2B in human prostate tumors was positively correlated with both SET7/9 and JUN levels.

Conclusions: The identified SET7/9-mediated methylation of JMJD2B appears to impact its cooperation with selected interacting transcription factors in prostate cancer cells. Given the implicated roles of JMJD2B beyond prostate tumorigenesis, SET7/9-mediated methylation of JMJD2B possibly also influences the development of other cancers, while its impairment might have relevance for obesity or a global developmental delay that can be elicited by reduced JMJD2B activity.

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