Weipeng Cheng scite author profile

Background Gastric cancer is a fatal gastrointestinal cancer with high morbidity and poor prognosis. The dismal 5-year survival rate warrants reliable biomarkers to assess and improve the prognosis of gastric cancer. Distinguishing driver mutations that are required for the cancer phenotype from passenger mutations poses a formidable challenge for cancer genomics. Methods We integrated the multi-omics data of 293 primary gastric cancer patients from The Cancer Genome Atlas (TCGA) to identify key driver genes by establishing a prognostic model of the patients. Analyzing both copy number alteration and somatic mutation data helped us to comprehensively reveal molecular markers of genomic variation. Integrating the transcription level of genes provided a unique perspective for us to discover dysregulated factors in transcriptional regulation. Results We comprehensively identified 31 molecular markers of genomic variation. For instance, the copy number alteration of WASHC5 (also known as KIAA0196) frequently occurred in gastric cancer patients, which cannot be discovered using traditional methods based on significant mutations. Furthermore, we revealed that several dysregulation factors played a hub regulatory role in the process of biological metabolism based on dysregulation networks. Cancer hallmark and functional enrichment analysis showed that these key driver (KD) genes played a vital role in regulating programmed cell death. The drug response patterns and transcriptional signatures of KD genes reflected their clinical application value. Conclusions These findings indicated that KD genes could serve as novel prognostic biomarkers for further research on the pathogenesis of gastric cancers. Our study elucidated a multidimensional and comprehensive genomic landscape and highlighted the molecular complexity of GC.

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Knocking down USP39 Inhibits the Growth and Metastasis of Non-Small-Cell Lung Cancer Cells through Activating the p53 Pathway

Yuan

Zhang

et al. 2020

IJMS

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Ubiquitin-specific protease 39 (USP39), a member of the deubiquitinating enzyme family, has been reported to participate in cytokinesis and metastasis. Previous studies determined that USP39 functions as an oncogenic factor in various types of cancer. Here, we reported that USP39 is frequently overexpressed in human lung cancer tissues and non-small-cell lung cancer (NSCLC) cell lines. USP39 knockdown inhibited the proliferation and colony formation of A549 and HCC827 cells and decreased tumorigenic potential in nude mice. Specifically, knocking down USP39 resulted in cell cycle arrest at G2/M and subsequent apoptosis through the activation of the p53 pathway, including upregulation of p21, cleaved-cas3, cleaved-cas9 and downregulation of CDC2 and CycinB1. Moreover, USP39 knockdown significantly inhibited migration and invasion of A549 and HCC827 cells, also via activation of the p53 pathway, and downregulation of MMP2 and MMP9. Importantly, we verified these results in metastasis models in vivo. Collectively, these results not only establish that USP39 functions as an oncogene in lung cancer, but reveal that USP39 has an essential role in regulating cell proliferation and metastasis via activation of the p53 pathway.

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USP39 mediates p21‐dependent proliferation and neoplasia of colon cancer cells by regulating the p53/p21/CDC2/cyclin B1 axis

Yuan

Zhang

et al. 2021

Molecular Carcinogenesis

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Ubiquitin‐specific protease 39 (USP39) is frequently overexpressed in a variety of cancers, and involved in the regulation of various biological processes, such as cell proliferation, cell cycle progression, apoptosis and pre‐messenger RNA splicing. Nevertheless, the biological roles and mechanisms of USP39 in colon cancer remain largely unknown. In this study, we analyzed whether USP39 can be a molecular target for the treatment of colon cancer. Whilst overexpression of USP39 was detected in human colon cancer tissues and cell lines, USP39 knockdown was observed to inhibit the growth and subcutaneous tumor formation of colon cancer cells. Further analysis showed that USP39 knockdown can stabilize p21 by prolonging the half‐life of p21 and by upregulating the promoter activity of p21. The RS domain and USP domain of USP39 were found to play an essential role. Additionally, our findings revealed that USP39 plays a regulatory role in the proliferation of colon cancer cells by the p53/p21/CDC2/cyclin B1 axis in a p21‐dependent manner. Taken together, this study provided the theoretical basis that may facilitate the development of USP39 as a novel potential target of colon cancer therapy.

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USP39 attenuates the antitumor activity of cisplatin on colon cancer cells dependent on p53

Yuan

Zhang

et al. 2021

Cell Biol Toxicol

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Weipeng Cheng

Protective effects of iridoid glycosides on acute colitis via inhibition of the inflammatory response mediated by the STAT3/NF-кB pathway

Identification of novel prognostic biomarkers by integrating multi-omics data in gastric cancer

Knocking down USP39 Inhibits the Growth and Metastasis of Non-Small-Cell Lung Cancer Cells through Activating the p53 Pathway

USP39 mediates p21‐dependent proliferation and neoplasia of colon cancer cells by regulating the p53/p21/CDC2/cyclin B1 axis

USP39 attenuates the antitumor activity of cisplatin on colon cancer cells dependent on p53

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