TET2 介导的 KMT2D 自身转录缺陷会导致肝细胞癌的靶向易感性。

IF 2.2 Q2 MULTIDISCIPLINARY SCIENCES
PNAS nexus Pub Date : 2024-11-11 eCollection Date: 2024-11-01 DOI:10.1093/pnasnexus/pgae504
Yuting Jin, Keqiang Rao, Jiaojiao Zheng, Xinchao Zhang, Yi Luo, Jing He
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引用次数: 0

摘要

肝细胞癌(HCC)已成为全球癌症相关死亡的主要原因。传统疗法往往会加重合并症、肝功能障碍和复发,因此迫切需要新的策略来治疗 HCC。在此,我们报告了DNA二氧酶TET2与组蛋白甲基转移酶KMT2D合作,使KMT2D和ARID1A在HCC中得以转录。通过RNA-seq分析,KMT2D和ARID1A是TET2的主要表观遗传靶标。此外,KMT2D通过氧化启动子中的5-甲基胞嘧啶,招募TET2促进自转录,从而维持ARID1A的表达。在生理学上,KMT2D被认为是一种肿瘤抑制因子,在HCC中介导维生素C的抗肿瘤作用。与对照组相比,缺失 KMT2D 的肿瘤具有生长优势。维生素 C 能抑制肿瘤生长,而 KMT2D 的缺乏则会影响肿瘤生长。此外,KMT2D的缺失使HCC肿瘤对顺铂敏感,肿瘤重量减轻,DNA损伤水平升高。最终,TET2-KMT2D 轴与 HCC 患者的预后相关。TET2和KMT2D含量高的患者预后较好。我们的研究结果不仅提出了一种迄今为止尚未认识到的 TET2 和 KMT2D 之间在介导 KMT2D 自转录过程中的交叉对话机制,还提出了一种基于 TET2-KMT2D 轴的 HCC 治疗靶向脆弱性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deficiency of TET2-mediated KMT2D self-transcription confers a targetable vulnerability in hepatocellular carcinoma.

Hepatocellular carcinoma (HCC) has become a leading cause of cancer-related mortality worldwide. Conventional therapies tend to exacerbate comorbidities, liver dysfunction, and relapse, rendering an urgent demand for novel strategy for management of HCC. Here, we reported that DNA dioxygenase TET2 collaborates with histone methyltransferase KMT2D to enable transcription of KMT2D and ARID1A in HCC. Mechanistically, KMT2D and ARID1A are the major epigenetic targets of TET2 through RNA-seq analysis. Moreover, KMT2D recruits TET2 to facilitate self-transcription via oxidation of 5-methylcytosine in promoter, thereby maintaining expression of ARID1A. Physiologically, KMT2D was identified as a tumor suppressor and mediates the antitumor effect of vitamin C in HCC. Tumors with depleted KMT2D present growth advantage over control group. Vitamin C is able to impair tumor growth, which is compromised by deficiency of KMT2D. Furthermore, loss of KMT2D sensitizes HCC tumors to cisplatin with reduced tumor weight and high level of DNA damage. Ultimately, TET2-KMT2D axis correlates with prognosis of patients with HCC. Patients with high amounts of TET2 and KMT2D present better outcome. Our findings not only put forth a heretofore unrecognized mechanism underlying cross-talk between TET2 and KMT2D in mediating self-transcription of KMT2D, but also propose a targetable vulnerability for HCC therapy on the basis of TET2-KMT2D axis.

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