Hepatitis C virus F protein inhibits cell apoptosis by activation of intracellular NF-kappaB pathway

To observe the influence of HCV F protein on apoptosis of HepG2 cells, and explore the association between F protein and NF-kappaB signal pathway. HCV 1b F gene containing HepG2-F cells and HCV 1b C gene containing HepG2-C cells were treated with 100 IU/mL TNF-alpha, and analyzed by flow cytometry,...

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Published in:Hepatology research 2009-03, Vol.39 (3), p.282-289
Main Authors: Shao, Sheng-Wen, Wu, Wen-Bin, Bian, Zhong-Qi, Yu, Jian-Guo, Zhao, Ping, Zhao, Lan-Juan, Zhu, Shi-Ying, Qi, Zhong-Tian
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container_title Hepatology research
container_volume 39
creator Shao, Sheng-Wen
Wu, Wen-Bin
Bian, Zhong-Qi
Yu, Jian-Guo
Zhao, Ping
Zhao, Lan-Juan
Zhu, Shi-Ying
Qi, Zhong-Tian
description To observe the influence of HCV F protein on apoptosis of HepG2 cells, and explore the association between F protein and NF-kappaB signal pathway. HCV 1b F gene containing HepG2-F cells and HCV 1b C gene containing HepG2-C cells were treated with 100 IU/mL TNF-alpha, and analyzed by flow cytometry, Western blotting, and dual luciferase reporter assay. Empty plasmid pcDNA3.1(+) containing HepG2-3.1 cells were used as control. (i) With the treatment of TNF-alpha for 18 h, the apoptosis rates (AR) of HepG2-F and HepG2-3.1 cells were 0.41% (+/- 0.11%) and 37.43% (+/- 2.03%) respectively, while that of HepG2-C was 4.07% (+/- 0.18%). At 36 h after TNF-alpha treatment, the AR of HepG2-F and HepG2-3.1 cells were 10.03% (+/- 0.41%) and 44.63% (+/- 3.37%), and that of HepG2-C was 14.95% (+/- 0.85%). (ii) After the treatment of TNF-alpha for 0.5-18 h, the p65 contents in the whole cells of HepG2-F and HepG2-3.1 showed no significant difference (P = 0.34, t = 1.08), while the p65 contents in the nucleus of HepG2-F and HepG2-3.1 cells were 3.8-1.9 times and 1.8-1.0 times higher than that in the non-treated cells (P = 0.013, t = 4.25). (iii) The relative luciferase unit (RLU) of the HepG2 cells, co-transfected with pcDNA3.1-F and pNF-kappaB-luc, and then treated with TNF-alpha (100 IU/mL) for 18 h, showed a pcDNA3.1-F dose-dependent increase. HCV F protein can over-activate NF-kappaB signal pathway, which makes HepG2-F cells able to resist TNF-alpha induced apoptosis.
doi_str_mv 10.1111/j.1872-034X.2008.00452.x
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HCV 1b F gene containing HepG2-F cells and HCV 1b C gene containing HepG2-C cells were treated with 100 IU/mL TNF-alpha, and analyzed by flow cytometry, Western blotting, and dual luciferase reporter assay. Empty plasmid pcDNA3.1(+) containing HepG2-3.1 cells were used as control. (i) With the treatment of TNF-alpha for 18 h, the apoptosis rates (AR) of HepG2-F and HepG2-3.1 cells were 0.41% (+/- 0.11%) and 37.43% (+/- 2.03%) respectively, while that of HepG2-C was 4.07% (+/- 0.18%). At 36 h after TNF-alpha treatment, the AR of HepG2-F and HepG2-3.1 cells were 10.03% (+/- 0.41%) and 44.63% (+/- 3.37%), and that of HepG2-C was 14.95% (+/- 0.85%). (ii) After the treatment of TNF-alpha for 0.5-18 h, the p65 contents in the whole cells of HepG2-F and HepG2-3.1 showed no significant difference (P = 0.34, t = 1.08), while the p65 contents in the nucleus of HepG2-F and HepG2-3.1 cells were 3.8-1.9 times and 1.8-1.0 times higher than that in the non-treated cells (P = 0.013, t = 4.25). (iii) The relative luciferase unit (RLU) of the HepG2 cells, co-transfected with pcDNA3.1-F and pNF-kappaB-luc, and then treated with TNF-alpha (100 IU/mL) for 18 h, showed a pcDNA3.1-F dose-dependent increase. 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(iii) The relative luciferase unit (RLU) of the HepG2 cells, co-transfected with pcDNA3.1-F and pNF-kappaB-luc, and then treated with TNF-alpha (100 IU/mL) for 18 h, showed a pcDNA3.1-F dose-dependent increase. 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HCV 1b F gene containing HepG2-F cells and HCV 1b C gene containing HepG2-C cells were treated with 100 IU/mL TNF-alpha, and analyzed by flow cytometry, Western blotting, and dual luciferase reporter assay. Empty plasmid pcDNA3.1(+) containing HepG2-3.1 cells were used as control. (i) With the treatment of TNF-alpha for 18 h, the apoptosis rates (AR) of HepG2-F and HepG2-3.1 cells were 0.41% (+/- 0.11%) and 37.43% (+/- 2.03%) respectively, while that of HepG2-C was 4.07% (+/- 0.18%). At 36 h after TNF-alpha treatment, the AR of HepG2-F and HepG2-3.1 cells were 10.03% (+/- 0.41%) and 44.63% (+/- 3.37%), and that of HepG2-C was 14.95% (+/- 0.85%). (ii) After the treatment of TNF-alpha for 0.5-18 h, the p65 contents in the whole cells of HepG2-F and HepG2-3.1 showed no significant difference (P = 0.34, t = 1.08), while the p65 contents in the nucleus of HepG2-F and HepG2-3.1 cells were 3.8-1.9 times and 1.8-1.0 times higher than that in the non-treated cells (P = 0.013, t = 4.25). (iii) The relative luciferase unit (RLU) of the HepG2 cells, co-transfected with pcDNA3.1-F and pNF-kappaB-luc, and then treated with TNF-alpha (100 IU/mL) for 18 h, showed a pcDNA3.1-F dose-dependent increase. HCV F protein can over-activate NF-kappaB signal pathway, which makes HepG2-F cells able to resist TNF-alpha induced apoptosis.</abstract><cop>Netherlands</cop><pmid>19054148</pmid><doi>10.1111/j.1872-034X.2008.00452.x</doi><tpages>8</tpages></addata></record>
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title Hepatitis C virus F protein inhibits cell apoptosis by activation of intracellular NF-kappaB pathway
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