<scp>THAP</scp> 3 recruits <scp>SMYD</scp> 3 to <scp>OXPHOS</scp> genes and epigenetically promotes mitochondrial respiration in hepatocellular carcinoma

Zi‐Hao Wang(Shanghai Medical College of Fudan University), Jingyi Wang(Shanghai Jiao Tong University), Fuchen Liu(Second Military Medical University), Sijun Sun(Shanghai Jiao Tong University), Quan Zheng(Shanghai Jiao Tong University), Xiaotian Hu(Shanghai Jiao Tong University), Zihan Yin(Shanghai Jiao Tong University), Chengmei Xie(Shanghai Jiao Tong University), Haiyan Wang(Shanghai Jiao Tong University), Tianshi Wang(Shanghai Jiao Tong University), Shengjie Zhang(Shanghai Jiao Tong University), Yiping Wang(Shanghai Medical College of Fudan University)
FEBS Letters
April 25, 2024
10.1002/1873-3468.14889
Cited by 2Open Access
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Abstract

Mitochondria harbor the oxidative phosphorylation (OXPHOS) system to sustain cellular respiration. However, the transcriptional regulation of OXPHOS remains largely unexplored. Through the cancer genome atlas (TCGA) transcriptome analysis, transcription factor THAP domain-containing 3 (THAP3) was found to be strongly associated with OXPHOS gene expression. Mechanistically, THAP3 recruited the histone methyltransferase SET and MYND domain-containing protein 3 (SMYD3) to upregulate H3K4me3 and promote OXPHOS gene expression. The levels of THAP3 and SMYD3 were altered by metabolic cues. They collaboratively supported liver cancer cell proliferation and colony formation. In clinical human liver cancer, both of them were overexpressed. THAP3 positively correlated with OXPHOS gene expression. Together, THAP3 cooperates with SMYD3 to epigenetically upregulate cellular respiration and liver cancer cell proliferation.

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