Dingdang Yu scite author profile

The prognosis for hepatocellular carcinoma (HCC) remains dismal in terms of overall survival (OS), and its molecular pathogenesis has not been completely defined. Here, we report that expression of deubiquitylase ubiquitin-specific protease 7 (USP7) is higher in human HCC tissues than in matched peritumoral tissues. Ectopic USP7 expression promotes growth of HCC cells in vivo and in vitro. Mechanistically, USP7 overexpression fosters HCC cell growth by forming a complex with and stabilizing thyroid hormone receptor-interacting protein 12 (TRIP12), which induces constitutive p14 ARF ubiquitination. Clinically, USP7 overexpression is significantly correlated with a malignant phenotype, including larger tumor size, multiple tumor, poor differentiation, elevated alpha-fetoprotein, and microvascular invasion. Moreover, overexpression of USP7 and/or TRIP12 correlates with shorter OS and higher cumulative recurrence rates of HCC. Conclusion: USP7 stabilizes TRIP12 by deubiquitination, thus constitutively inactivating p14 ARF and promoting HCC progression. This represents a novel marker for predicting prognosis and a potential therapeutic target for HCC. (HEPATOLOGY 2015;61:1603-1614 H epatocellular carcinoma (HCC) ranks as the fifth-most common cancer and the third cause of cancer-related mortality worldwide, mainly owing to its high rate of metastasis and recurrence.1 The recent identification of several oncogenes and tumor-suppressor genes has significantly deepened the understanding of the invasion and metastasis of HCC. 2 However, the effects of tumor progressionrelated genes often depend on the level of their protein products as well as their post-translational Abbreviations: 2D-LC-MS/MS, two-dimensional liquid chromatography coupled with tandem mass

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KDM5A suppresses PML-RARα target gene expression and APL differentiation through repressing H3K4me2

Xu¹,

Wang²,

Xing³

et al. 2021

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Epigenetic abnormalities are frequently involved in the initiation and progression of cancers, including acute myeloid leukemia (AML). A subtype of AML, acute promyelocytic leukemia (APL), is mainly driven by a specific oncogenic fusion event of promyelocytic leukemia–RA receptor fusion oncoprotein (PML-RARα). PML-RARα was reported as a transcription repressor through the interaction with nuclear receptor corepressor and histone deacetylase complexes leading to the mis-suppression of its target genes and differentiation blockage. Although previous studies were mainly focused on the connection of histone acetylation, it is still largely unknown whether alternative epigenetics mechanisms are involved in APL progression. KDM5A is a demethylase of histone H3 lysine 4 di- and tri-methylations (H3K4me2/3) and a transcription corepressor. Here, we found that the loss of KDM5A led to APL NB4 cell differentiation and retarded growth. Mechanistically, through epigenomics and transcriptomics analyses, KDM5A binding was detected in 1889 genes, with the majority of the binding events at promoter regions. KDM5A suppressed the expression of 621 genes, including 42 PML-RARα target genes, primarily by controlling the H3K4me2 in the promoters and 5′ end intragenic regions. In addition, a recently reported pan-KDM5 inhibitor, CPI-455, on its own could phenocopy the differentiation effects as KDM5A loss in NB4 cells. CPI-455 treatment or KDM5A knockout could greatly sensitize NB4 cells to all-trans retinoic acid–induced differentiation. Our findings indicate that KDM5A contributed to the differentiation blockage in the APL cell line NB4, and inhibition of KDM5A could greatly potentiate NB4 differentiation.

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TET2 stabilization by 14-3-3 binding to the phosphorylated Serine 99 is deregulated by mutations in cancer

Chen

Fang

et al. 2019

Cell Res

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Dingdang Yu

Ubiquitin‐specific protease 7 accelerates p14ARF degradation by deubiquitinating thyroid hormone receptor‐interacting protein 12 and promotes hepatocellular carcinoma progression

KDM5A suppresses PML-RARα target gene expression and APL differentiation through repressing H3K4me2

TET2 stabilization by 14-3-3 binding to the phosphorylated Serine 99 is deregulated by mutations in cancer

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