Effect on Hepatitis C Virus Replication of Combinations of Direct-Acting Antivirals, Including NS5A Inhibitor Daclatasvir

Pelosi, Lenore A.; Voss, Stacey; Liu, Mengping; Gao, Min; Lemm, Julie A.

doi:10.1128/aac.01209-12

Cited by 68 publications

(51 citation statements)

References 60 publications

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“…In addition, several DAAs, including inhibitors for NS3/4A protease, NS5A, and NS5B polymerase, are currently in clinical trials. Several reports have shown that in vitro replication of HCV RNA is significantly inhibited by treatment with daclatasvir (NS5A inhibitor) and asunaprevir (NS3 protease inhibitor), and these two DAAs are also effective for patients infected with genotype 1 HCV who showed no response to previous therapy with peg-IFN-␣ and RBV (6)(7)(8). On the other hand, it has been shown that drug-resistant breakthrough viruses emerge during treatment with DAAs (9)(10)(11)(12).…”

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confidence: 99%

Novel Permissive Cell Lines for Complete Propagation of Hepatitis C Virus

Mai

Fukuhara

Ono

et al. 2014

J Virol

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Hepatitis C virus (HCV) is a major etiologic agent of chronic liver diseases. Although the HCV life cycle has been clarified by studying laboratory strains of HCV derived from the genotype 2a JFH-1 strain (cell culture-adapted HCV [HCVcc]), the mechanisms of particle formation have not been elucidated. Recently, we showed that exogenous expression of a liver-specific microRNA, miR-122, in nonhepatic cell lines facilitates efficient replication but not particle production of HCVcc, suggesting that liver-specific host factors are required for infectious particle formation. In this study, we screened human cancer cell lines for expression of the liver-specific ␣-fetoprotein by using a cDNA array database and identified liver-derived JHH-4 cells and stomach-derived FU97 cells, which express liver-specific host factors comparable to Huh7 cells. These cell lines permit not only replication of HCV RNA but also particle formation upon infection with HCVcc, suggesting that hepatic differentiation participates in the expression of liver-specific host factors required for HCV propagation. HCV inhibitors targeting host and viral factors exhibited different antiviral efficacies between Huh7 and FU97 cells. Furthermore, FU97 cells exhibited higher susceptibility for propagation of HCVcc derived from the JFH-2 strain than Huh7 cells. These results suggest that hepatic differentiation participates in the expression of liver-specific host factors required for complete propagation of HCV. IMPORTANCEPrevious studies have shown that liver-specific host factors are required for efficient replication of HCV RNA and formation of infectious particles. In this study, we screened human cancer cell lines for expression of the liver-specific ␣-fetoprotein by using a cDNA array database and identified novel permissive cell lines for complete propagation of HCVcc without any artificial manipulation. In particular, gastric cancer-derived FU97 cells exhibited a much higher susceptibility to HCVcc/JFH-2 infection than observed in Huh7 cells, suggesting that FU97 cells would be useful for further investigation of the HCV life cycle, as well as the development of therapeutic agents for chronic hepatitis C. More than 170 million individuals worldwide are infected with hepatitis C virus (HCV), and the cirrhosis and hepatocellular carcinoma induced by HCV infection are life-threatening diseases (1). Current standard therapy combining pegylated-interferon (peg-IFN) and ribavirin (RBV) has achieved a sustained virological response (SVR) in 50% of individuals infected with HCV genotype 1 (2). Recently, directly acting antiviral (DAA) agents have been applied in a clinical setting (3). An SVR rate of over 80% has been realized by combination therapy with peg-IFN, RBV, and NS3/4A inhibitors in genotype 1 patients (4, 5). In addition, several DAAs, including inhibitors for NS3/4A protease, NS5A, and NS5B polymerase, are currently in clinical trials. Several reports have shown that in vitro replication of HCV RNA is significantly inhibited by treat...

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confidence: 99%

Novel Permissive Cell Lines for Complete Propagation of Hepatitis C Virus

Mai

Fukuhara

Ono

et al. 2014

J Virol

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“…Until recently, there were no effective prophylactic or therapeutic vaccines available for the treatment of HCV infections. The current antiviral therapy against HCV consists of pegylated IFNa and ribavirin, together with directly acting antivirals (DAAs) such as the protease inhibitors telaprevir, boceprevir and simeprevir, and the nucleotide analogue sofosbuvir (Cox, 2015;Kohli et al, 2014;Pelosi et al, 2012). However, the use of currently available DAAs is limited because of a series of problems including safety profiles, virus breakthroughs and comparatively higher medical costs.…”

Section: Introductionmentioning

confidence: 99%

Trachelogenin, a novel inhibitor of hepatitis C virus entry through CD81

Qian

Jin

Chen

et al. 2016

Journal of General Virology

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Although much progress has been made in antiviral agents against hepatitis C virus (HCV) in recent years, novel HCV inhibitors with improved efficacy, optimized treatment duration and more affordable prices are still urgently needed. Here, we report the identification of a natural plant-derived lignan, trachelogenin (TGN), as a potent entry inhibitor of HCV without genotype specificity, and with low cytotoxicity. TGN was extracted and purified from Caulis trachelospermi, a traditional Chinese herb with anti-inflammatory and analgesic effects. A crucial function of TGN was the inhibition of HCV entry during a post-binding step without affecting virus replication, translation, assembly and release. TGN blocked virus infection by interfering with the normal interactions between HCV glycoprotein E2 and the host entry factor CD81, which are key processes for valid virus entry. In addition, TGN diminished HCV cell-to-cell spread and exhibited additional synergistic effects when combined with IFN or telaprevir. In conclusion, this study highlights the effect of a novel HCV entry inhibitor, TGN, which has a target that differs from those of the current antiviral agents. Therefore, TGN is a potential candidate for future cocktail therapies to treat HCV-infected patients.

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“…In Japan, a phase III study demonstrated that a 24-week combined regimen of daclatasvir (DCV) and asunaprevir (ASV) was highly effective in patients with HCV genotype 1b infections [10]. DCV was the first nonstructural protein 5A (NS5A) replication complex inhibitor to show potential efficacy against all HCV genotypes [11][12][13][14]. ASV is a second-generation NS3 (nonstructural protein 3) protease inhibitor that exhibited strong antiviral activity against HCV genotypes 1 and 4.…”

Section: Introductionmentioning

confidence: 99%