BACKGROUND: HCV has infected >170 million individuals worldwide. Effective therapy against HCV is still lacking and there is a need to develop potent drugs against the virus. In the present study, we have employed two culture models to test the activity of fluoroquinolone drugs against HCV: a subgenomic replicon that is able to replicate independently in the cell line Huh-8 and the Huh-7 cell culture model that employs cells transfected with synthetic HCV RNA to produce the infectious HCV particles. Fluoroquinolones have also been shown to have inhibitory activity against certain viruses, possibly by targeting the viral helicase. To tease out the mechanism of the antiviral activity of fluoroquinolones, their effect on HCV NS3 helicase protein was also tested. METHODS: Huh-7 cells producing the HCV virion as well as Huh-8 cells were grown in the presence or absence of 12 different fluoroquinolones. Afterwards, Huh-7 and Huh-8 cells were lysed and viral RNA was extracted. The extracted RNA was reverse transcribed and quantified by real-time quantitative PCR. Fluoroquinolones were also tested on purified NS3 protein in a molecular-beacon-based in vitro helicase assay. RESULTS: To varying degrees, all of the tested fluoroquinolones effectively inhibited HCV replication in both Huh-7 and Huh-8 culture models. The inhibition of HCV NS3 helicase activity was also observed with all 12 of the fluoroquinolones. CONCLUSIONS: Fluoroquinolones inhibit HCV replication possibly by targeting the HCV NS3 helicase. These drugs hold promise for the treatment of HCV infection.
BACKGROUND: HCV has infected >170 million individuals worldwide. Effective therapy against HCV is still lacking and there is a need to develop potent drugs against the virus. In the present study, we have employed two culture models to test the activity of fluoroquinolone drugs against HCV: a subgenomic replicon that is able to replicate independently in the cell line Huh-8 and the Huh-7 cell culture model that employs cells transfected with synthetic HCV RNA to produce the infectious HCV particles. Fluoroquinolones have also been shown to have inhibitory activity against certain viruses, possibly by targeting the viral helicase. To tease out the mechanism of the antiviral activity of fluoroquinolones, their effect on HCV NS3helicase protein was also tested. METHODS:Huh-7 cells producing the HCV virion as well as Huh-8 cells were grown in the presence or absence of 12 different fluoroquinolones. Afterwards, Huh-7 and Huh-8 cells were lysed and viral RNA was extracted. The extracted RNA was reverse transcribed and quantified by real-time quantitative PCR. Fluoroquinolones were also tested on purified NS3 protein in a molecular-beacon-based in vitro helicase assay. RESULTS: To varying degrees, all of the tested fluoroquinolones effectively inhibited HCV replication in both Huh-7 and Huh-8 culture models. The inhibition of HCV NS3helicase activity was also observed with all 12 of the fluoroquinolones. CONCLUSIONS:Fluoroquinolones inhibit HCV replication possibly by targeting the HCV NS3helicase. These drugs hold promise for the treatment of HCV infection.
Authors: Krzysztof Marciniec; Artur Beberok; Paweł Pęcak; Stanisław Boryczka; Dorota Wrześniok Journal: Pharmacol Rep Date: 2020-10-15 Impact factor: 3.024
Authors: Ana R Millanao; Aracely Y Mora; Nicolás A Villagra; Sergio A Bucarey; Alejandro A Hidalgo Journal: Molecules Date: 2021-11-25 Impact factor: 4.411
Authors: Stacey L P Scroggs; Jordan T Gass; Ramesh Chinnasamy; Steven G Widen; Sasha R Azar; Shannan L Rossi; Jeffrey B Arterburn; Nikos Vasilakis; Kathryn A Hanley Journal: Virology Date: 2020-10-01 Impact factor: 3.616
Authors: Stacey L P Scroggs; Christy C Andrade; Ramesh Chinnasamy; Sasha R Azar; Erin E Schirtzinger; Erin I Garcia; Jeffrey B Arterburn; Kathryn A Hanley; Shannan L Rossi Journal: Viruses Date: 2020-09-13 Impact factor: 5.048