S. Ludmerer scite author profile

Hepatitis C virus (HCV) infection is a leading cause of liver transplantation and there is an urgent need to develop therapies to reduce rates of HCV infection of transplanted livers. Approved therapeutics for HCV are poorly tolerated and are of limited efficacy in this patient population. Human monoclonal antibody HCV1 recognizes a highly-conserved linear epitope of the HCV E2 envelope glycoprotein (amino acids 412–423) and neutralizes a broad range of HCV genotypes. In a chimpanzee model, a single dose of 250 mg/kg HCV1 delivered 30 minutes prior to infusion with genotype 1a H77 HCV provided complete protection from HCV infection, whereas a dose of 50 mg/kg HCV1 did not protect. In addition, an acutely-infected chimpanzee given 250 mg/kg HCV1 42 days following exposure to virus had a rapid reduction in viral load to below the limit of detection before rebounding 14 days later. The emergent virus displayed an E2 mutation (N415K/D) conferring resistance to HCV1 neutralization. Finally, three chronically HCV-infected chimpanzees were treated with a single dose of 40 mg/kg HCV1 and viral load was reduced to below the limit of detection for 21 days in one chimpanzee with rebounding virus displaying a resistance mutation (N417S). The other two chimpanzees had 0.5–1.0 log10 reductions in viral load without evidence of viral resistance to HCV1. In vitro testing using HCV pseudovirus (HCVpp) demonstrated that the sera from the poorly-responding chimpanzees inhibited the ability of HCV1 to neutralize HCVpp. Measurement of antibody responses in the chronically-infected chimpanzees implicated endogenous antibody to E2 and interference with HCV1 neutralization although other factors may also be responsible. These data suggest that human monoclonal antibody HCV1 may be an effective therapeutic for the prevention of graft infection in HCV-infected patients undergoing liver transplantation.

show abstract

Identification of a Key Determinant of Hepatitis C Virus Cell Culture Adaptation in Domain II of NS3 Helicase

Grobler

Markel

Fay

et al. 2003

Journal of Biological Chemistry

View full text Add to dashboard Cite

Efficient replication of hepatitis C virus (HCV) replicons in cell culture is associated with specific sequences not generally observed in vivo. These cell culture adaptive mutations dramatically increase the frequency with which replication is established in vitro. However, replicons derived from HCV isolates that have been shown to replicate in chimpanzees do not replicate in cell culture even when these adaptive mutations are introduced. To better understand this apparent paradox, we performed a gain-of-function screen to identify sequences that could confer cell culture replication competence to replicons derived from chimpanzee infectious HCV isolates. We found that residue 470 in domain II of the NS3 helicase is a critical determinant in cell culture adaptation. Substitutions in residue 470 when combined with the NS5A-S232I adaptive mutation are both necessary and sufficient to confer cell culture replication to otherwise inactive replicons, including those derived from genotype 1b HCV-BK and genotype 1a HCV-H77 isolates. The specific substitution at residue 470 required for replication is context-dependent, with R470M and P470L being optimal for the activity of HCV-BK and HCV-H77 replicons, respectively. Together these data indicate that mutations in the NS3 helicase domain II act in concert with previously identified adaptive mutations and predict that introduction of compatible residues at these positions can confer cell culture replication activity to diverse HCV isolates. The hepatitis C virus (HCV)1 is a major human pathogen for which both vaccines and broadly effective therapeutics are not available (1-3). HCV has a positive-sense RNA genome of ϳ9600 bases and expresses a polyprotein of ϳ3000 amino acids (4) that is processed by host and viral proteases to yield 10 mature proteins (5, 6). Subgenomic HCV RNAs from which the structural proteins have been excised but which express nonstructural proteins and cis-encoded RNA elements essential for replication (replicons) (7-10) are capable of autonomous replication in cell culture (11-13).An important feature of HCV is its high level of genetic variability, which is believed to be a consequence of the low fidelity of the viral polymerase. This variability is underscored by the identification of six major HCV genotypes (designated 1-6), more than 50 subtypes, and numerous quasi-species within each subtype (14). Several clones that are infectious in chimpanzees have been described previously (15-22). In contrast, replicons derived from only the HCV-con1 and HCV-N isolates have been shown to replicate robustly in cell culture thus far (11-13). Efficient replication in cell culture has been invariably associated with adaptive mutations that dramatically increase the frequency with which replication is established (12,(23)(24)(25). Adaptive mutations in the HCV-con1 replicon have been localized to various non-structural genes, although substitutions in NS5A, for example S232I, appear to be the most effective (23). Similarly a 4-amino acid insertion in NS5A th...

show abstract

858 in Vitro Resistance Analysis of HCV Ns5a Inhibitor: Mk-8742 Demonstrates Increased Potency Against Clinical Resistance Variants and Higher Resisitance Barrier

Liu¹,

Kong²,

Mann³

et al. 2012

Journal of Hepatology

View full text Add to dashboard Cite

[791] HCV Antiviral Activity and Resistance Analysis in Chronically Infected Chimpanzees Treated With Ns3/4a Protease and Ns5b Polymerase Inhibitors

Olsen¹,

Carroll²,

Handt³

et al. 2007

Journal of Hepatology

View full text Add to dashboard Cite

Vaniprevir plus peginterferon alfa‐2b and ribavirin in treatment‐experienced Japanese patients with hepatitis C virus genotype 1 (GT1b) infection: Phase 3 studies

Kumada

Mochida

Suzuki

et al. 2016

J of Gastro and Hepatol

View full text Add to dashboard Cite

Background and Aim: Vaniprevir is a macrocyclic hepatitis C virus (HCV) non-structural (NS)3/4A protease inhibitor. The objective of these phase 3 multicenter, open-label trials was to evaluate the safety and efficacy of vaniprevir + peginterferon alfa-2b + ribavirin (PR) in Japanese patients with HCV genotype (GT)1 infection who had previously failed treatment with interferon-based regimens. Methods: Japanese patients with chronic HCV GT1 were enrolled. In PN044, patients with previous relapse or virologic breakthrough were randomized to vaniprevir (300 mg twice daily) + PR for 12 weeks followed by PR for another 12 weeks (12-week arm) or vaniprevir + PR for 24 weeks (24-week arm). In PN045, patients with previous partial/null response received vaniprevir + PR for 24 weeks. The primary endpoint was sustained virologic response at 24 weeks after completing treatment (SVR 24 ). Results: In PN044 (n = 51), SVR 24 was 92.0% and 96.2% in the 12-and 24-week arms, respectively. In PN045 (n = 42), SVR 24 was 61.9% in all patients and 55.2% in previous null responders. In both studies, vaniprevir + PR was generally safe and well tolerated; the majority of adverse events were mild/moderate and included pyrexia, decreased hemoglobin, headache, nausea, pruritus, and decreased platelet count. Polymorphisms in the HCV NS3 gene at baseline (Y56, Q80, and V170) did not impact treatment outcome. Virologic failure was principally associated with the on-treatment emergence of R155 or D168 mutations. Conclusions: Vaniprevir + PR is an effective, well-tolerated treatment for Japanese patients with HCV GT1 infection who failed previous interferon-based treatment.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

S. Ludmerer

Human Monoclonal Antibody HCV1 Effectively Prevents and Treats HCV Infection in Chimpanzees

Identification of a Key Determinant of Hepatitis C Virus Cell Culture Adaptation in Domain II of NS3 Helicase

858 in Vitro Resistance Analysis of HCV Ns5a Inhibitor: Mk-8742 Demonstrates Increased Potency Against Clinical Resistance Variants and Higher Resisitance Barrier

[791] HCV Antiviral Activity and Resistance Analysis in Chronically Infected Chimpanzees Treated With Ns3/4a Protease and Ns5b Polymerase Inhibitors

Vaniprevir plus peginterferon alfa‐2b and ribavirin in treatment‐experienced Japanese patients with hepatitis C virus genotype 1 (GT1b) infection: Phase 3 studies

Contact Info

Product

Resources

About