Your search keyword '"Nianli Liu"' showing total 6 results

1. Inhibition of hepatitis C virus infection by DNA aptamer against NS2 protein.

Author

Yimin Gao, Xiaoyan Yu, Binbin Xue, Fei Zhou, Xiaohong Wang, Darong Yang, Nianli Liu, Li Xu, Xiaohong Fang, and Haizhen Zhu

Subjects

Medicine, Science

Abstract

NS2 protein is essential for hepatitis C virus (HCV) replication. NS2 protein was expressed and purified. Aptamers against NS2 protein were raised and antiviral effects of the aptamers were examined. The molecular mechanism through which the aptamers exert their anti-HCV activity was investigated. The data showed that aptamer NS2-3 inhibited HCV RNA replication in replicon cell line and infectious HCV cell culture system. NS2-3 and another aptamer NS2-2 were demonstrated to inhibit infectious virus production without cytotoxicity in vitro. They did not affect hepatitis B virus replication. Interferon beta (IFN-β) and interferon-stimulated genes (ISGs) were not induced by the aptamers in HCV-infected hepatocytes. Furthermore, our study showed that N-terminal region of NS2 protein is involved in the inhibition of HCV infection by NS2-2. I861T within NS2 is the major resistance mutation identified. Aptamer NS2-2 disrupts the interaction of NS2 with NS5A protein. The data suggest that NS2-2 aptamer against NS2 protein exerts its antiviral effects through binding to the N-terminal of NS2 and disrupting the interaction of NS2 with NS5A protein. NS2-specific aptamer is the first NS2 inhibitor and can be used to understand the mechanisms of virus replication and assembly. It may be served as attractive candidates for inclusion in the future HCV direct-acting antiviral combination therapies.

Published

2014

2. MiR-942 mediates hepatitis C virus-induced apoptosis via regulation of ISG12a.

Author

Darong Yang, Xianghe Meng, Binbin Xue, Nianli Liu, Xiaohong Wang, and Haizhen Zhu

Subjects

Medicine, Science

Abstract

The interaction between hepatitis C virus (HCV) and human hepatic innate antiviral responses is unclear. The aim of this study was to examine how human hepatocytes respond to HCV infection. An infectious HCV isolate, JFH1, was used to infect a newly established human hepatoma cell line HLCZ01. Viral RNA or NS5A protein was examined by real-time PCR or immunofluorescence respectively. The mechanisms of HCV-induced IFN-β and apoptosis were explored. Our data showed that HLCZ01 cells supported the entire HCV lifecycle and IFN-β and interferon-stimulated genes (ISGs) were induced in HCV-infected cells. Viral infection caused apoptosis of HLCZ01 cells. Silencing of RIG-I, IRF3 or TRAIL inhibited ISG12a expression and blocked apoptosis of viral-infected HLCZ01 cells. Knockdown ISG12a blocked apoptosis of viral-infected cells. MiR-942 is a candidate negative regulator of ISG12a predicted by bioinformatics search. Moreover, HCV infection decreased miR-942 expression in HLCZ01 cells and miR-942 was inversely correlated with ISG12a expression in both HCV-infected cells and liver biopsies. MiR-942 forced expression in HLCZ01 cells decreased ISG12a expression and subsequently suppressed apoptosis triggered by HCV infection. Conversely, silencing of miR-942 expression by anti-miR-942 increased ISG12a expression and enhanced apoptosis in HCV-infected cells. Induction of Noxa by HCV infection contributed to ISG12a-mediated apoptosis. All the data indicated that innate host response is intact in HCV-infected hepatocytes. MiR-942 regulates HCV-induced apoptosis of human hepatocytes by targeting ISG12a. Our study provides a novel mechanism by which human hepatocytes respond to HCV infection.

Published

2014

3. 2-octynoic acid inhibits hepatitis C virus infection through activation of AMP-activated protein kinase.

Author

Darong Yang, Binbin Xue, Xiaohong Wang, Xiaoyan Yu, Nianli Liu, Yimin Gao, Chen Liu, and Haizhen Zhu

Subjects

Medicine, Science

Abstract

Many chronic hepatitis C virus (HCV)-infected patients with current therapy do not clear the virus. It is necessary to find novel treatments. The effect of 2-octynoic acid (2-OA) on HCV infection in human hepatocytes was examined. The mechanism of 2-OA antiviral activity was explored. Our data showed that 2-OA abrogated lipid accumulation in HCV replicon cells and virus-infected hepatocytes. It suppressed HCV RNA replication and infectious virus production with no cytotoxicity to the host cells. 2-OA did not affect hepatitis B virus replication in HepG2.2.15 cells derived from HepG2 cells transfected with full genome of HBV. Further study demonstrated that 2-OA activated AMP-activated protein kinase (AMPK) and inhibited acetyl-CoA carboxylase in viral-infected cells. Compound C, a specific inhibitor of AMPK, inhibited AMPK activity and reversed the reduction of intracellular lipid accumulation and the antiviral effect of 2-OA. Knockdown of AMPK expression by RNA interference abolished the activation of AMPK by 2-OA and blocked 2-OA antiviral activity. Interestingly, 2-OA induced interferon-stimulated genes (ISGs) and inhibited microRNA-122 (miR-122) expression in virus-infected hepatocytes. MiR-122 overexpression reversed the antiviral effect of 2-OA. Furthermore, knockdown of AMPK expression reversed both the induction of ISGs and suppression of miR-122 by 2-OA, implying that activated AMPK induces the intracellular innate response through the induction of ISGs and inhibiting miR-122 expression. 2-OA inhibits HCV infection through regulation of innate immune response by activated AMPK. These findings reveal a novel mechanism by which active AMPK inhibits HCV infection. 2-OA and its derivatives hold promise for novel drug development for chronic hepatitis C.

Published

2013

4. Innate host response in primary human hepatocytes with hepatitis C virus infection.

Author

Darong Yang, Nianli Liu, Chaohui Zuo, Shoahua Lei, Xinjiao Wu, Fei Zhou, Chen Liu, and Haizhen Zhu

Subjects

Medicine, Science

Abstract

The interaction between hepatitis C virus (HCV) and innate antiviral defense systems in primary human hepatocytes is not well understood. The objective of this study is to examine how primary human hepatocytes response to HCV infection.An infectious HCV isolate JFH1 was used to infect isolated primary human hepatocytes. HCV RNA or NS5A protein in the cells was detected by real-time PCR or immunofluorescence staining respectively. Apoptosis was examined with flow cytometry. Mechanisms of HCV-induced IFN-β expression and apoptosis were determined.Primary human hepatocytes were susceptible to JFH1 virus and released infectious virus. IFN-α inhibited viral RNA replication in the cells. IFN-β and interferon-stimulated genes were induced in the cells during acute infection. HCV infection induced apoptosis of primary human hepatocytes through the TRAIL-mediated pathway. Silencing RIG-I expression in primary human hepatocytes inhibited IFN-β and TRAIL expression and blocked apoptosis of the cells, which facilitated viral RNA replication in the cells. Moreover, HCV NS34A protein inhibited viral induced IFN-β expression in primary human hepatocytes.Innate host response is intact in HCV-infected primary human hepatocytes. RIG-I plays a key role in the induction of IFN and TRAIL by viruses and apoptosis of primary human hepatocytes via activation of the TRAIL-mediated pathway. HCV NS34A protein appears to be capable of disrupting the innate antiviral host responses in primary human hepatocytes. Our study provides a novel mechanism by which primary human hepatocytes respond to natural HCV infection.

Published

2011

5. Innate host response in primary human hepatocytes with hepatitis C virus infection

Author

Fei Zhou, Chaohui Zuo, Chen Liu, Shoahua Lei, Xinjiao Wu, Darong Yang, Nianli Liu, and Haizhen Zhu

Subjects

Small interfering RNA, Gastroenterology and hepatology, Host response, lcsh:Medicine, Apoptosis, Hepacivirus, medicine.disease_cause, Hepatitis, DEAD-box RNA Helicases, TNF-Related Apoptosis-Inducing Ligand, Molecular Cell Biology, Signaling in Cellular Processes, Receptors, Immunologic, lcsh:Science, Apoptotic Signaling Cascade, Cells, Cultured, Apoptotic Signaling, Multidisciplinary, Primary (chemistry), Cell Death, virus diseases, Transfection, Flow Cytometry, Hepatitis C, Innate Immunity, Signaling Cascades, Infectious hepatitis, Medicine, Infectious diseases, DEAD Box Protein 58, RNA, Viral, Research Article, Signal Transduction, Transcriptional Activation, Hepatitis C virus, Immunology, Viral diseases, Biology, Microbiology, Viral Proteins, medicine, Humans, Liver diseases, lcsh:R, Immunity, Interferon-beta, Virology, digestive system diseases, Immunity, Innate, NS2-3 protease, Viral replication, Hepatocytes, Clinical Immunology, lcsh:Q, Cytometry

Abstract

Background and Aim The interaction between hepatitis C virus (HCV) and innate antiviral defense systems in primary human hepatocytes is not well understood. The objective of this study is to examine how primary human hepatocytes response to HCV infection. Methods An infectious HCV isolate JFH1 was used to infect isolated primary human hepatocytes. HCV RNA or NS5A protein in the cells was detected by real-time PCR or immunofluorescence staining respectively. Apoptosis was examined with flow cytometry. Mechanisms of HCV-induced IFN-β expression and apoptosis were determined. Results Primary human hepatocytes were susceptible to JFH1 virus and released infectious virus. IFN-α inhibited viral RNA replication in the cells. IFN-β and interferon-stimulated genes were induced in the cells during acute infection. HCV infection induced apoptosis of primary human hepatocytes through the TRAIL-mediated pathway. Silencing RIG-I expression in primary human hepatocytes inhibited IFN-β and TRAIL expression and blocked apoptosis of the cells, which facilitated viral RNA replication in the cells. Moreover, HCV NS34A protein inhibited viral induced IFN-β expression in primary human hepatocytes. Conclusion Innate host response is intact in HCV-infected primary human hepatocytes. RIG-I plays a key role in the induction of IFN and TRAIL by viruses and apoptosis of primary human hepatocytes via activation of the TRAIL-mediated pathway. HCV NS34A protein appears to be capable of disrupting the innate antiviral host responses in primary human hepatocytes. Our study provides a novel mechanism by which primary human hepatocytes respond to natural HCV infection.

Published

2011

6. MiR-942 Mediates Hepatitis C Virus-Induced Apoptosis via Regulation of ISG12a

Author

Binbin Xue, Haizhen Zhu, Xiang-He Meng, Darong Yang, Nianli Liu, and Xiaohong Wang

Subjects

Male, Viral Diseases, Gastroenterology and hepatology, lcsh:Medicine, Apoptosis, Hepacivirus, Pathogenesis, Pathology and Laboratory Medicine, medicine.disease_cause, Hepatitis, DEAD-box RNA Helicases, TNF-Related Apoptosis-Inducing Ligand, Receptors, Immunologic, lcsh:Science, Multidisciplinary, virus diseases, Transfection, Middle Aged, Hepatitis C, Gene Expression Regulation, Neoplastic, Infectious hepatitis, Infectious Diseases, Proto-Oncogene Proteins c-bcl-2, Host-Pathogen Interactions, DEAD Box Protein 58, Signal transduction, Signal Transduction, Research Article, Hepatitis C virus, Biology, Microbiology, Immune system, Cell Line, Tumor, microRNA, medicine, Humans, Gene silencing, NS5A, Liver diseases, Medicine and health sciences, lcsh:R, Membrane Proteins, Biology and Life Sciences, Interferon-beta, Molecular biology, digestive system diseases, MicroRNAs, Hepatocytes, Interferon Regulatory Factor-3, lcsh:Q

Abstract

The interaction between hepatitis C virus (HCV) and human hepatic innate antiviral responses is unclear. The aim of this study was to examine how human hepatocytes respond to HCV infection. An infectious HCV isolate, JFH1, was used to infect a newly established human hepatoma cell line HLCZ01. Viral RNA or NS5A protein was examined by real-time PCR or immunofluorescence respectively. The mechanisms of HCV-induced IFN-β and apoptosis were explored. Our data showed that HLCZ01 cells supported the entire HCV lifecycle and IFN-β and interferon-stimulated genes (ISGs) were induced in HCV-infected cells. Viral infection caused apoptosis of HLCZ01 cells. Silencing of RIG-I, IRF3 or TRAIL inhibited ISG12a expression and blocked apoptosis of viral-infected HLCZ01 cells. Knockdown ISG12a blocked apoptosis of viral-infected cells. MiR-942 is a candidate negative regulator of ISG12a predicted by bioinformatics search. Moreover, HCV infection decreased miR-942 expression in HLCZ01 cells and miR-942 was inversely correlated with ISG12a expression in both HCV-infected cells and liver biopsies. MiR-942 forced expression in HLCZ01 cells decreased ISG12a expression and subsequently suppressed apoptosis triggered by HCV infection. Conversely, silencing of miR-942 expression by anti-miR-942 increased ISG12a expression and enhanced apoptosis in HCV-infected cells. Induction of Noxa by HCV infection contributed to ISG12a-mediated apoptosis. All the data indicated that innate host response is intact in HCV-infected hepatocytes. MiR-942 regulates HCV-induced apoptosis of human hepatocytes by targeting ISG12a. Our study provides a novel mechanism by which human hepatocytes respond to HCV infection.

Published

2014