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Start Over Author "Yuechao Ding" Topic cancer research
5 results on '"Yuechao Ding"'

2. CircANTXR1 Contributes to the Malignant Progression of Hepatocellular Carcinoma by Promoting Proliferation and Metastasis

Author

Yuechao Ding, Wei Yu, Qian Wang, Tao Huang, and Changshan Huang

Subjects
Cell growth, Cancer, hepatocellular carcinoma, Biology, medicine.disease, medicine.disease_cause, Exosome, digestive system diseases, Metastasis, circANTXR1, miR-532-5p, microRNA, medicine, Cancer research, exosome, Gene silencing, MTT assay, Carcinogenesis, XRCC5, Journal of Hepatocellular Carcinoma, Original Research
Abstract

Changshan Huang, Wei Yu, Qian Wang, Tao Huang, Yuechao Ding Department of Hepato-Biliary-Pancreatic Surgery, The Affiliated Cancer Hospital of Zhengzhou University, Zhengzhou, 450003, Henan, People’s Republic of ChinaCorrespondence: Changshan HuangDepartment of Hepato-Biliary-Pancreatic Surgery, The Affiliated Cancer Hospital of Zhengzhou University, Zhengzhou, 450003, People’s Republic of ChinaTel +86 371 65587028Email hnhcs@163.comBackground: Circular RNA (circRNA) is a key regulator for the malignant progression of cancer. However, the role of circRNA anthrax toxin receptor 1 (circANTXR1) in hepatocellular carcinoma (HCC) is still unclear.Methods: Quantitative real-time PCR was performed to detect RNA expression. Cell proliferation, migration and invasion were determined using MTT assay, EdU staining, colony formation assay, wound healing assay and transwell assay. The protein levels of metastasis markers, x-ray repair cross complementing 5 (XRCC5) and exosome markers were examined using Western blot analysis. Xenograft tumor models were built to investigate the role of circANTXR1 in HCC tumorigenesis. The relationship between microRNA (miR)-532-5p and circANTXR1 or XRCC5 was confirmed by dual-luciferase reporter assay and RNA pull-down assay. The identification of exosomes were performed using transmission electron microscopy (TEM) and nanoparticle tracking analysis (NTA).Results: CircANTXR1 was a stable and highly expressed circRNA in HCC. Silenced circANTXR1 inhibited the proliferation, migration and invasion of HCC cells in vitro, and suppressed HCC tumor growth in vivo. MiR-532-5p could be sponged by circANTXR1, and its inhibitor could reverse the inhibition of circANTXR1 silencing on HCC cells progression. In addition, we discovered that XRCC5 was a target of miR-532-5p. Furthermore, XRCC5 overexpression could reverse the suppressive effect of miR-532-5p overexpression on HCC cell proliferation, migration and invasion. Exosome was involved in the transport of circANTXR1 in HCC cells. Exosome circANTXR1 might be a potential serum biomarker for HCC patients.Conclusion: CircANTXR1 promotes the progression of HCC through the miR-532-5p/XRCC5 axis, which might be a potential serum biomarker and therapeutic target of HCC.Keywords: hepatocellular carcinoma, circANTXR1, miR-532-5p, XRCC5, exosome

Published
2021

3. LncAPC drives Wnt/β-catenin activation and liver TIC self-renewal through EZH2 mediated APC transcriptional inhibition

Author

Lu Han, Xiaoyan Zhu, Qinxian Zhang, Yuechao Ding, Jizhen Lin, Fujun Qin, Yong Zhang, Zihe Yang, and Xiaomin Fu

Subjects
Transcriptional Activation, 0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Cancer Research, Liver tumor, Adenomatous Polyposis Coli Protein, Mice, Nude, Biology, Metastasis, 03 medical and health sciences, Cell Line, Tumor, mental disorders, medicine, Animals, Humans, Gene silencing, Enhancer of Zeste Homolog 2 Protein, Cell Self Renewal, Wnt Signaling Pathway, Molecular Biology, Mice, Inbred BALB C, Gene knockdown, Liver Neoplasms, EZH2, Wnt signaling pathway, medicine.disease, nervous system diseases, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Catenin, Neoplastic Stem Cells, Cancer research, RNA, Long Noncoding, Liver cancer, human activities
Abstract

Liver tumor initiating cells (TICs), a small subset cells in tumor bulk, are responsible for liver tumor initiation, metastasis, and relapse. However, the regulatory mechanism of liver TICs remains largely unknown. Here we found a long noncoding RNA lncAPC, locating near from APC locus, was highly expressed in liver cancer and liver TICs. LncAPC was required for liver TIC self-renewal. Silencing and overexpressing lncAPC showed impaired and enhanced sphere formation capacity of liver TICs, respectively. By recruiting EZH2 to APC promoter, LncAPC inhibits APC transcription and thus drives the activation of Wnt/β-catenin signaling. Attenuate binding between EZH2 and APC promoter was observed upon lncAPC knockdown. What is more, lncAPC-EZH2-APC axis can be targeted to eliminate liver TICs. Altogether, LncAPC promotes liver TIC self-renewal through EZH2-dependent APC transcriptional inhibition.

Published
2017

4. RETRACTED ARTICLE: Linc00210 drives Wnt/β-catenin signaling activation and liver tumor progression through CTNNBIP1-dependent manner

Author

Zihe Yang, Fujun Qin, Jizhen Lin, Yuechao Ding, Yiman Shang, Qinxian Zhang, Yong Zhang, Quanli Gao, Xiaoyan Zhu, Xiaomin Fu, and Li Wang

Subjects
0301 basic medicine, Cancer Research, Liver tumor, CTNNBIP1, Wnt signaling pathway, Tumor initiation, Biology, medicine.disease, medicine.disease_cause, Metastasis, Transcriptome, 03 medical and health sciences, 030104 developmental biology, Oncology, medicine, Cancer research, Molecular Medicine, Liver cancer, Carcinogenesis
Abstract

Background Liver tumor initiating cells (TICs) have self-renewal and differentiation properties, accounting for tumor initiation, metastasis and drug resistance. Long noncoding RNAs are involved in many physiological and pathological processes, including tumorigenesis. DNA copy number alterations (CNA) participate in tumor formation and progression, while the CNA of lncRNAs and their roles are largely unknown. Methods LncRNA CNA was determined by microarray analyses, realtime PCR and DNA FISH. Liver TICs were enriched by surface marker CD133 and oncosphere formation. TIC self-renewal was analyzed by oncosphere formation, tumor initiation and propagation. CRISPRi and ASO were used for lncRNA loss of function. RNA pulldown, western blot and double FISH were used to identify the interaction between lncRNA and CTNNBIP1. Results Using transcriptome microarray analysis, we identified a frequently amplified long noncoding RNA in liver cancer termed linc00210, which was highly expressed in liver cancer and liver TICs. Linc00210 copy number gain is associated with its high expression in liver cancer and liver TICs. Linc00210 promoted self-renewal and tumor initiating capacity of liver TICs through Wnt/β-catenin signaling. Linc00210 interacted with CTNNBIP1 and blocked its inhibitory role in Wnt/β-catenin activation. Linc00210 silencing cells showed enhanced interaction of β-catenin and CTNNBIP1, and impaired interaction of β-catenin and TCF/LEF components. We also confirmed linc00210 copy number gain using primary hepatocellular carcinoma (HCC) samples, and found the correlation between linc00210 CNA and Wnt/β-catenin activation. Of interest, linc00210, CTNNBIP1 and Wnt/β-catenin signaling targeting can efficiently inhibit tumor growth and progression, and liver TIC propagation. Conclusion With copy-number gain in liver TICs, linc00210 is highly expressed along with liver tumorigenesis. Linc00210 drives the self-renewal and propagation of liver TICs through activating Wnt/β-catenin signaling. Linc00210 interacts with CTNNBIP1 and blocks the combination between CTNNBIP1 and β-catenin, driving the activation of Wnt/β-catenin signaling. Linc00210-CTNNBIP1-Wnt/β-catenin axis can be targeted for liver TIC elimination.

Published
2018

5. MEF2 transcription factors promotes EMT and invasiveness of hepatocellular carcinoma through TGF-β1 autoregulation circuitry

Author

Wei Yu, Hong-Bo Ma, Yuechao Ding, Qian Wang, Chang-Shan Huang, Tao Huang, Chao Ma, and Wei-Yu Chen

Subjects
Mef2, Carcinoma, Hepatocellular, Epithelial-Mesenchymal Transition, Blotting, Western, Enzyme-Linked Immunosorbent Assay, Biology, Real-Time Polymerase Chain Reaction, Transforming Growth Factor beta1, Phosphatidylinositol 3-Kinases, Cell Movement, Tumor Cells, Cultured, Humans, Gene silencing, Neoplasm Invasiveness, RNA, Messenger, Epithelial–mesenchymal transition, Oleanolic Acid, RNA, Small Interfering, neoplasms, Protein kinase B, PI3K/AKT/mTOR pathway, Cell Proliferation, Phosphoinositide-3 Kinase Inhibitors, Regulation of gene expression, MEF2 Transcription Factors, Reverse Transcriptase Polymerase Chain Reaction, Cell growth, Liver Neoplasms, General Medicine, Flow Cytometry, digestive system diseases, Gene Expression Regulation, Neoplastic, Immunology, Cancer research, Proto-Oncogene Proteins c-akt, Transforming growth factor
Abstract

Invasion and metastasis is the main causes leading to the death of hepatocellular carcinoma (HCC) patients. However, the underlying mechanism is still to be explored. Transforming growth factor β1 (TGF-β1) is a stronger inducer of HCC cell invasion. However, the downstream effector of TGF-β1 that promotes HCC invasion is still unknown. In this study, we found that PI3K/Akt activation takes place following the stimulation of TGF-β1. The inhibition of PI3K/Akt activation abolished epithelial-mesenchymal transition (EMT) and invasion of HCC cells induced by TGF-β1. Myocyte enhancer factors 2 (MEF2) family proteins were found to be overexpressed in HCC cells under the treatment of TGF-β1 in a PI3K/Akt-dependent way. Silencing the expression of MEF2s was able to prevent the effect of TGF-β1 on HCC EMT and invasion. Unexpectedly, MEF2 proteins were able to promote the expression of TGF-β1 in HCC cells, suggesting the existence of regulatory circuitry consisting of TGF-β1, PI3K/Akt, and MEF2. A natural compound, oleanolic acid, was demonstrated to suppress the invasion and EMT of HCC cells by downregulating MEF2, showing that targeting this pathway is an effective therapeutic strategy for HCC invasion. We believe that our findings can contribute to better understanding of the involved mechanism of HCC invasion and the development of preventive and therapeutic strategy.

Published
2014

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