Hepatitis C. Development of new drugs and clinical trials: promises and pitfalls. Summary of an AASLD hepatitis single topic conference, Chicago, IL, February 27-March 1, 2003

Host Cell Targets in HCV Therapy: Novel Strategy or Proven Practice?

The development of novel antiviral drugs against hepatitis C is a challenging and competitive area of research. Progress of this research has been hampered due to the quasispecies nature of the hepatitis C virus, the absence of cellular infection models and the lack of easily accessible and highly representative animal models. The current combination therapy consisting of interferon-α and ribavirin mainly acts by supporting host cell defence. These therapeutics are the prototypic representatives of indirect antiviral agents as they act on cellular targets. However, the therapy is not a cure, when considered from the long-term perspective, for almost half of the chronically infected patients. This draws attention to the urgent need for more efficient treatments. Novel anti-hepatitis C treatments under study are directed against a number of so-called direct antiviral targets such as polymerases and proteases, which are encoded by the virus. Although such direct antiviral approaches have proven to be successful in several viral indications, there is a risk of resistant viruses developing. In order to avoid resistance, the development of indirect antiviral compounds has to be intensified. These act on host cell targets either by boosting the immune response or by blocking the virus host cell interaction. A particularly interesting approach is the development of inhibitors that interfere with signal transduction, such as protein kinase inhibitors. The purpose of this review is to stress the importance of developing indirect antiviral agents that act on host cell targets. In doing so, a large source of potential targets and mechanisms can be exploited, thus increasing the likelihood of success. Ultimately, combination therapies consisting of drugs against direct and indirect viral targets will most probably provide the solution to fighting and eradicating hepatitis C virus in patients.

Betulinic acid exerts anti-hepatitis C virus activity via the suppression of NF-κB- and MAPK-ERK1/2-mediated COX-2 expression

BACKGROUND AND PURPOSE

This study was designed to evaluate the effect of betulinic acid (BA), extracted from Avicennia marina, on the replication of hepatitis C virus (HCV) and to investigate the mechanism of this BA-mediated anti-HCV activity.

EXPERIMENTAL APPROACH

HCV replicon and infectious systems were used to evaluate the anti-HCV activity of BA. Exogenous COX-2 or knock-down of COX-2 expression was used to investigate the role of COX-2 in the anti-HCV activity of BA. The effects of BA on the phosphorylation of NF-κB and on kinases in the MAPK signalling pathway were determined. The anti-HCV activity of BA in combination with other HCV inhibitors was also determined to assess its use as an anti-HCV supplement.

KEY RESULTS

BA inhibited HCV replication in both Ava5 replicon cells and in a cell culture-derived infectious HCV particle system. Treatment with a combination of BA and IFN-α, the protease inhibitor telaprevir or the NS5B polymerase inhibitor sofosbuvir resulted in the synergistic suppression of HCV RNA replication. Exogenous overexpression of COX-2 gradually attenuated the inhibitory effect of BA on HCV replication, suggesting that BA reduces HCV replication by suppressing the expression of COX-2. In particular, BA down-regulated HCV-induced COX-2 expression by reducing the phosphorylation of NF-κB and ERK1/2 of the MAPK signalling pathway.

CONCLUSIONS AND IMPLICATIONS

BA inhibits HCV replication by suppressing the NF-κB- and ERK1/2-mediated COX-2 pathway and may serve as a promising compound for drug development or as a potential supplement for use in the treatment of HCV-infected patients.

Disruption of Bcl-2 and Bcl-xL by viral proteins as a possible cause of cancer

The Bcl proteins play a critical role in apoptosis, as mutations in family members interfere with normal programmed cell death. Such events can cause cell transformation, potentially leading to cancer. Recent discoveries indicate that some viral proteins interfere with Bcl proteins either directly or indirectly; however, these data have not been systematically described. Some viruses encode proteins that reprogramme host cellular signalling pathways controlling cell differentiation, proliferation, genomic integrity, cell death, and immune system recognition. This review analyses and summarises the existing data and discusses how viral proteins interfere with normal pro- and anti-apoptotic functions of Bcl-2 and Bcl-xL. Particularly, this article focuses on how viral proteins, such as Herpesviruses, HTLV-1, HPV and HCV, block apoptosis and how accumulation of such interference predisposes cancer development. Finally, we discuss possible ways to prevent and treat cancers using a combination of traditional therapies and antiviral preparations that are effective against these viruses.

Occurrence of genetic modifications in core, 5'UTR and NS5b of HCV associated with viral response to treatment

Background

It is becoming progressively more understandable that genetic variability of viruses is a major challenge in translating the laboratory findings to clinic. Genetic variability is the underlying cause of variant viral proteins which are not targetable by host immunological machinery.

Methods

500 patients were enrolled in study and amongst them, 451 patients were followed and categorized into two groups on the basis of their treatment response. Group 1 consisting of the 376 patients exhibited SVR while group 2 comprised 75 patients who were non-responders on the basis of viral load as evidenced by Real-Time PCR. Comparative sequence analysis was done between 75 non-responders and 75 responders (randomly picked from 376) by targeting three genomic regions, 5′UTR, core and NS5B and amplified products were directly sequenced and obtained sequences were cleaned, aligned and submitted to GenBank. Maximum Parsimony (MP) method was used for phylogenetic analysis and dendrograms were dragged using MEGA 5. Heterogeneity at nucleotide and amino acid level was determined using software BioEdit and DNAman while phosphorylation and N-linked glycosylation sites were determined using NetPhos 2.0 and SignalP-NN.

Results

Genotype 3 was prevalent in group 1 whereas non-responders indicated rare genotypes of Pakistan i.e. 4 and 5, genotype 6q and 6v were reported first time from Pakistan in this study. At nucleotide and amino acid level, the genetic distance and mutation, number of predicted N-phosphorylation and N-glycosylation sites was higher in group 2 as compared to group 1. Difference in percentage composition of individual amino acids was noted to be different between the two groups.

Conclusions

It can be concluded that heterogeneity both at nucleotide and amino acid level contributed in developing drug resistant phenotype. Moreover, occurrence of rare genotypes might hurdle the way to positive response of conventional treatment. Furthermore, prediction of phosphorylation and glycosylation sites could help in targeting the proper sites for drug designing.

Pegylated IFN-α and ribavirin: emerging data in the treatment of special populations

Hepatitis C virus (HCV) is one of the most common causes of chronic liver disease and is currently the leading indication for liver transplantation in the USA. Pegylated IFN-α (PEG-IFN-α) and ribavirin comprise the standard of care for the treatment of chronic HCV. The expansion of antiviral therapy to include special populations that were not well represented or excluded from registration trials has occurred in recent years. Data have emerged that demonstrate that these groups have variable responses to therapy and, in some cases, different side-effect profiles. The etiologies for the varied response rates remain under investigation. This review will address the clinical efficacy and safety profiles of PEG-IFN-α and ribavirin in populations of patients coinfected with HIV, obese patients, liver transplant recipients, children and African-Americans.

Novel anilinocoumarin derivatives as agents against hepatitis C virus by the induction of IFN-mediated antiviral responses

The hepatitis C virus (HCV) is the main cause of progressive liver disease, leading to the development of liver cirrhosis and hepatocellular carcinoma (HCC). Novel anilinocoumarins were synthesized, and their efficacy against HCV replication was evaluated. We demonstrated that 3-(3',4',5'-trimethoxyanilin-1'-yl)methylaminocoumarin (6) exhibited strong anti-HCV activity at protein and RNA levels at non-toxic concentrations, with an EC(50) value of 12 ± 0.3 μM and a selective index (SI) value of 10. Combined treatment of compound 6 and interferon-α (IFN) or telaprevir induced a significant decrease in HCV RNA levels, respectively. We also found that the anti-HCV replication effect of compound 6 was due to the induction of IFN-mediated antiviral responses. This is the first report demonstrating that coumarins inhibit viral replication through an IFN-mediated anti-viral response. Collectively, compound 6 possessed potent activities against HCV replication and could be a new lead compound with higher selectivity and less toxicity.

Evaluation of persistence of resistant variants with ultra-deep pyrosequencing in chronic hepatitis C patients treated with telaprevir

Background & Aims

Telaprevir, a hepatitis C virus NS3/4A protease inhibitor has significantly improved sustained viral response rates when given in combination with pegylated interferon alfa-2a and ribavirin, compared with current standard of care in hepatitis C virus genotype 1 infected patients. In patients with a failed sustained response, the emergence of drug-resistant variants during treatment has been reported. It is unclear to what extent these variants persist in untreated patients. The aim of this study was to assess using ultra-deep pyrosequencing, whether after 4 years follow-up, the frequency of resistant variants is increased compared to pre-treatment frequencies following 14 days of telaprevir treatment.

Methods

Fifteen patients from 2 previous telaprevir phase 1 clinical studies (VX04-950-101 and VX05-950-103) were included. These patients all received telaprevir monotherapy for 14 days, and 2 patients subsequently received standard of care. Variants at previously well-characterized NS3 protease positions V36, T54, R155 and A156 were assessed at baseline and after a follow-up of 4±1.2 years by ultra-deep pyrosequencing. The prevalence of resistant variants at follow-up was compared to baseline.

Results

Resistance associated mutations were detectable at low frequency at baseline. In general, prevalence of resistance mutations at follow-up was not increased compared to baseline. Only one patient had a small, but statistically significant, increase in the number of V36M and T54S variants 4 years after telaprevir-dosing.

Conclusion

In patients treated for 14 days with telaprevir monotherapy, ultra-deep pyrosequencing indicates that long-term persistence of resistant variants is rare.

Discovery of naturally occurring aurones that are potent allosteric inhibitors of hepatitis C virus RNA-dependent RNA polymerase

We have identified naturally occurring 2-benzylidenebenzofuran-3-ones (aurones) as new templates for non-nucleoside hepatitis C virus (HCV) RNA-dependent RNA polymerase (RdRp) inhibitors. The aurone target site, identified by site-directed mutagenesis, is located in thumb pocket I of HCV RdRp. The RdRp inhibitory activity of 42 aurones was rationally explored in an enzyme assay. Molecular docking studies were used to determine how aurones bind to HCV RdRp and to predict their range of inhibitory activity. Seven aurone derivatives were found to have potent inhibitory effects on HCV RdRp, with IC(50) below 5 μM and excellent selectivity index (inhibition activity versus cellular cytotoxicity). The most active aurone analogue was (Z)-2-((1-butyl-1H-indol-3-yl)methylene)-4,6-dihydroxybenzofuran-3(2H)-one (compound 51), with an IC(50) of 2.2 μM. Their potent RdRp inhibitory activity and their low toxicity make these molecules attractive candidates as direct-acting anti-HCV agents.

An assessment of the use of chimpanzees in hepatitis C research past, present and future: 1. Validity of the chimpanzee model

The USA is the only significant user of chimpanzees in biomedical research in the world, since many countries have banned or limited the practice due to substantial ethical, economic and scientific concerns. Advocates of chimpanzee use cite hepatitis C research as a major reason for its necessity and continuation, in spite of supporting evidence that is scant and often anecdotal. This paper examines the scientific and ethical issues surrounding chimpanzee hepatitis C research, and concludes that claims of the necessity of chimpanzees in historical and future hepatitis C research are exaggerated and unjustifiable, respectively. The chimpanzee model has several major scientific, ethical, economic and practical caveats. It has made a relatively negligible contribution to knowledge of, and tangible progress against, the hepatitis C virus compared to non-chimpanzee research, and must be considered scientifically redundant, given the array of alternative methods of inquiry now available. The continuation of chimpanzee use in hepatitis C research adversely affects scientific progress, as well as chimpanzees and humans in need of treatment. Unfounded claims of its necessity should not discourage changes in public policy regarding the use of chimpanzees in US laboratories.

Development of an intergenotypic hepatitis C virus (HCV) cell culture method to assess antiviral susceptibilities and resistance development of HCV NS3 protease genes from HCV genotypes 1 to 6

Protease inhibitors (PIs) of hepatitis C virus (HCV) provide an additional or alternative therapy for chronic infection. However, assessment of their efficacy and ability to inhibit replication of different genotypes is hampered by the lack of a convenient animal model or a method for in vitro culture of HCV other than the type 1/2-based replicons and the infectious genotype 2a clone JFH1. To address this problem, we constructed a panel of replication-competent chimeric Jc1 (pFK JFH1/J6/C-846) clones containing protease and NS4A coding sequences from all six major genotypes, enabling the determination of replication and the susceptibility to PIs. Chimeras showed substantial variability in replication kinetics, attributable in part to naturally occurring polymorphisms and differing requirements for adaptive mutations in NS3 and NS4A. Through calculation of 50% inhibitory concentrations (IC(50)s) of BILN 2061, measuring reduction in the number of focus-forming units/ml (FFU/ml) and replication inhibition, consistent genotype-associated differences in antiviral susceptibilities were observed. IC(50)s for genotype 1b, 4a, and 6a-derived chimeras (1 to 3 nM) were approximately 100-fold lower than those for genotypes 2a, 3a, and 5a (range, 80 to 720 nM), implying major differences in response to therapy. In vitro passage in increasing concentrations of BILN 2061 rapidly induced resistance-associated mutations at position 168 in chimeras of all 6 genotypes and at position 156 in genotypes 1b and 4a, each with substantial variability in the identity of substituted amino acids. The system will allow future comprehensive phenotypic characterization of naturally occurring and treatment-induced mutations for PIs in trial or entering clinical use.

Structure-based design, synthesis, and biological evaluation of 1,1-dioxoisothiazole and benzo[b]thiophene-1,1-dioxide derivatives as novel inhibitors of hepatitis C virus NS5B polymerase

A novel series of HCV NS5B polymerase inhibitors comprising 1,1-dioxoisothiazoles and benzo[b]thiophene-1,1-dioxides were designed, synthesized, and evaluated. SAR studies guided by structure-based design led to the identification of a number of potent NS5B inhibitors with nanomolar IC(50) values. The most potent compound exhibited IC(50) less than 10nM against the genotype 1b HCV polymerase and EC(50) of 70 nM against a genotype 1b replicon in cell culture. The DMPK properties of selected compounds were also evaluated.

The way forward in HCV treatment--finding the right path

Infection with the hepatitis C virus (HCV) represents an important health-care problem worldwide. The prevalence of HCV-related disease is increasing, and no vaccine is yet available. Since the identification of HCV as the causative agent of non-A, non-B hepatitis, treatment has progressed rapidly, but morbidity and mortality rates are still predicted to rise. Novel, more efficacious and tolerable therapies are urgently needed, and a greater understanding of the viral life cycle has led to an increase in the number of possible targets for antiviral intervention. Here we review the specific challenges posed by HCV, and recent developments in the design of vaccines and novel antiviral agents.

Telaprevir and pegylated interferon-alpha-2a inhibit wild-type and resistant genotype 1 hepatitis C virus replication in patients

Telaprevir (VX-950) is an orally active, specifically targeted antiviral therapy for hepatitis C virus (HCV) that has been shown to profoundly reduce plasma HCV RNA in genotype 1 patients. Using a highly sensitive sequencing assay that detects minor populations of viral variants (>or=5%), mutations were identified that conferred low-level (V36M/A, T54A, or R155K/T) or high-level (A156V/T and 36/155) resistance to telaprevir in vitro. We report a detailed kinetic analysis of these variants in 16 patients given telaprevir or telaprevir + pegylated interferon-alpha-2a (PEG-IFN-alpha-2a) for 14 days. In 4 patients who had a viral rebound on telaprevir alone, the R155K/T and A156V/T variants were detected during the initial steep decline in HCV RNA. During the rebound phase, the R155K/T and A156V/T variants were replaced by V36(M/A)/R155(K/T) double mutant variants. In the remaining 12 patients given telaprevir alone or with telaprevir/PEG-IFN-alpha-2a, the A156V/T variant was detected in some patients, but viral levels continued to decline in all patients.

CONCLUSION

These studies suggest that the initial antiviral response to telaprevir is due to a sharp reduction in wild-type virus, which uncovers pre-existing telaprevir-resistant variants. In patients given telaprevir alone, viral rebound can result from the selection of variants with greater fitness. However, the combination of telaprevir and PEG-IFN-alpha-2a inhibited both wild-type and resistant variants. In the present study, every patient who began PEG-IFN-alpha-2a and ribavirin after the 14-day dosing period had undetectable HCV RNA levels at 24 weeks, indicating that telaprevir-resistant variants are sensitive to PEG-IFN-alpha-2a and ribavirin.

Progress in the anti-hepatitis C virus strategies targeting on host cells

Chronic hepatitis C virus (HCV) infection is one of the serious diseases endangered people's health. The current therapy for HCV infection has limited efficacy, and new and more effective therapies are pressingly needed. Host cell factors that are required for HCV infection, replication and/or pathogenesis represent potential therapeutic targets. The most interesting cellular factors are cellular receptors that mediate HCV entry, factors that facilitate HCV replication and assembly, and intracellular pathways involving lipid biosynthesis, oxidative stress and innate immune response. The key issue now is to manipulate such cellular targets pharmacologically for the treatment of chronic HCV infection, without being limited by side effects. This paper mainly related to the nearest years of research progress for a brief overview.

Dynamic hepatitis C virus genotypic and phenotypic changes in patients treated with the protease inhibitor telaprevir

BACKGROUND & AIMS

Telaprevir (VX-950), a hepatitis C virus (HCV) NS3.4A protease inhibitor, has shown strong antiviral activity in phase 1 clinical studies. Because of high levels of HCV replication and the low fidelity of HCV polymerase, selection of resistant isolates during therapy may occur.

METHODS

A highly sensitive sequencing method was developed in which approximately 80 clones/sample were analyzed to identify mutations in the NS3 protease catalytic domain in HCV genotype-1-infected patients dosed with 450 mg every 8 hours, 750 mg every 8 hours, or 1250 mg every 12 hours of telaprevir for 14 days.

RESULTS

Mutations that confer low-level resistance (V36A/M, T54A, R155K/T, and A156S) and high-level resistance (A156V/T, 36+155, 36+156) to telaprevir were detected and correlated with telaprevir exposure and virologic response. Changes in the frequency of mutations after the end of dosing showed an inverse relationship between in vivo viral fitness and resistance. In the absence of telaprevir selective pressure the majority of resistant variants were replaced by wild-type virus within 3-7 months.

CONCLUSIONS

Resistant HCV isolates are selected rapidly during therapy with the highly active protease inhibitor telaprevir. Combination therapy with pegylated interferon-alfa or other direct antiviral drugs seem mandatory to avoid developing resistance.

Experiences on antiviral treatment for chronic viral B and C hepatitis patients in Hungary. 1998–2004

Az utolsó évtizedben számos multicentrikus, randomizált vizsgálat bizonyította az előrehaladást a krónikus vírushepatitisek kezelésében. Ugyanakkor csak korlátozott számú és ellentmondásos adatokat közöltek az antivirális terápia reális értékéről a mindennapos rutin klinikai gyakorlatában. Cél: Retrospektív felmérést végeztünk a terápia hatékonyságának megállapítására krónikus B- és C-hepatitisben, egy 7 éves periódus alatt kezelt országos populációban. Emellett bemutatjuk még egy hazai prospektív vizsgálat néhány adatát is. Módszerek: 220 krónikus B-hepatitises beteget kezeltünk, közülük 112 standard interferon-, 23 pegilált interferon-, 85 lamivudin-terápiában részesült, akikben a HbeAg-szerokonverzió és/vagy HBV-DNS-negatívvá válás arányát vizsgáltuk. A retrospektív elemzésben szereplő 2442 krónikus C-hepatitises közül 333 standard interferon-monoterápiát, 1122 standard interferon + ribavirin kombinációt és 987 pegilált interferon + ribavirin-kezelést kapott. A prospektív vizsgálatban 69 HCV1-beteg pegilált interferon α-2a + ribavirin terápiában részesült 6–12 hónapon át. A tartós virológiai válasz mellett vizsgáltuk a kedvező kimenetel prediktorait és a mellékhatások előfordulását. Eredmények: Krónikus B-hepatitisben a standard interferon 31%-os, a pegilált interferon 30%-os, a lamivudin 31–33%-os tartós vírusnegativitáshoz vezetett. Krónikus C-hepatitisben a tartós virológiai válasz aránya az interferon-monoterápiával észlelt 13%-ról a pegilált interferon + ribavirin mellett 31%-ra nőtt, a prospektív vizsgálatban ez 48% volt. A jó prognózis prediktora a rapid (4 hetes) és a korai (12 hetes) virológiai válasz, a női nem, az életkor, BMI és az adherencia volt. A betegek 9%-ában fordult elő mellékhatás, leggyakrabban cytopenia, haemolysis és depresszió. Következtetés: A krónikus B-hepatitisszel ellentétben, a hepatitis C-vírusinfekció kezelésének effektivitása hazánkban is fokozatosan javult. A mindennapi gyakorlat országos adatai azonban elmaradnak a prospektív vizsgálat sikerességétől. A jövőben hatékonyabb terápiás stratégiák szükségesek, beleértve az individualizált dozírozást és az új antivirális szerek alkalmazását.

Treatment of hepatitis C virus infection

Acute and chronic hepatitis C virus (HCV) infection remains a serious health problem worldwide, however, there has been advancement in the treatment of HCV infection due to standard treatment using pegylated interferon and ribavirin. The literature indicates that therapy for HCV is becoming more individualized. In addition to considering genotype and viral RNA levels before treatment, achievement of an early virologic response (EVR) and a rapid virologic response (RVR) is now possible during therapy. Moreover, problem patients, such as non-responders, relapsers, HIV or HBV co-infected patients, patients with liver cirrhosis, and pre- or post-liver transplantation patients are an increasing fraction of the patients requiring treatment. This article reviews the literature regarding standard treatments and problem patients with acute and chronic HCV infection. It also includes discussion on contraindications and side effects of treatment with interferon and ribavirin, as well as new drug development.

Emerging host cell targets for hepatitis C therapy

Chronic hepatitis C virus (HCV) infection is a major burden on humanity. The current HCV therapy has limited efficacy, and there is pressing need for new and more effective therapies. Host cell factors that are required for HCV infection, replication and/or pathogenesis represent potential therapeutic targets. Of particular interest are cellular receptors that mediate HCV entry, factors that facilitate HCV replication and assembly, and intracellular pathways involving lipid biosynthesis, oxidative stress and innate immune response. A crucial challenge now is to manipulate such cellular targets pharmacologically for chronic HCV treatment, without being limited by side effects.

Is hepatitis C virus NS3 protease quasispecies heterogeneity predictive of progression from cirrhosis to hepatocellular carcinoma?

We investigated whether an HCV NS3 protease quasispecies heterogeneity was associated with progression from viral cirrhosis to hepatocellular carcinoma (HCC). The NS3 protease quasispecies structure of 10 HCV-1b cirrhotic patients (controls) was compared with that of 10 paired HCV-1b cirrhotic patients who displayed progression to HCC (cases). NS3 protease genetic complexity and diversity did not differ significantly between cases and controls. Amino acid substitutions were detected at 20 (11%) and 25 (14%) sites in at least two variants of the NS3 protease in cases and controls, respectively. Significant differences in the percentage of substituted clones were observed for 10 NS3 sites. Mutations Y56F, I71V, T72I, Q86P, P89S, S101G/D, R117H, S122G/T/N, V132I and V170I were more frequently observed in the NS3 protease sequences of controls than in those of cases. Residue V107 was substituted in NS3 cases but not in controls. However, these differences did not allow the definition of a specific NS3 profile related to HCC occurrence. The NS3 secondary structure B1-1 previously identified as potentially predictive of HCC was identified with a higher frequency in cases quasispecies (84.2%) than in controls (55.9%; P < 0.05). Our results suggest that there may be a relationship to fibrosis progression when diversity parameters are considered together with secondary structure profiles. Further investigations are required to determine the cellular interactions of HCV NS3 protease in the context of carcinogenesis.

How does hepatitis C virus enter cells?

Hepatitis C virus (HCV) exists in different forms in the circulation of infected people: lipoprotein bound and lipoprotein free, enveloped and nonenveloped. Viral particles with the highest infectivity are associated with lipoproteins, whereas lipoprotein-free virions are poorly infectious. The detection of HCV's envelope proteins E1 and E2 in lipoprotein-associated virions has been challenging. Because lipoproteins are readily endocytosed, some forms of HCV might utilize their association with lipoproteins rather than E1 and E2 for cell attachment and internalization. However, vaccination of chimpanzees with recombinant envelope proteins protected the animals from hepatitis C infection, suggesting an important role for E1 and E2 in cell entry. It seems possible that different forms of HCV use different receptors to attach to and enter cells. The putative receptors and the assays used for their validation are discussed in this review.

Impact on adherence and sustained virological response of psychiatric side effects during peginterferon and ribavirin therapy for chronic hepatitis C

BACKGROUND

The psychiatric side effects of interferon, often responsible for dose reduction or treatment discontinuation, represent a major limitation in the treatment of chronic hepatitis C (CHC).

AIM

To prospectively assess the impact on adherence and sustained virological response (SVR) of the occurrence of psychiatric side effects during peginterferon and ribavirin therapy for CHC.

METHODS

Ninety-eight consecutive treatment-naïve CHC patients receiving a standard course of peginterferon plus ribavirin were systematically screened for psychiatric side effects, using DSM-IV, at baseline and both during and after treatment.

RESULTS

Psychiatric side effects occurred in 38 patients (39%), mostly within the first 12 weeks (87%), and always consisted of mood disorders. Overall, 68% of patients achieved an SVR (71% of patients with mood disorders and 68% of those without; P = N.S.). Peginterferon and ribavirin dose reductions did not differ between patients with mood disorders and those without (46% vs. 37%, respectively; P = N.S. and 13% vs. 22%, respectively; P = N.S.). Anti-viral therapy had to be discontinued in four patients (nonresponse: two, hyperthyroidism: one, psychiatric event: one).

CONCLUSION

Early detection and appropriate management of psychiatric side effects during peginterferon and ribavirin therapy for CHC allow optimizing adherence and virological efficacy.

Antiviral treatment of hepatitis C

Therapy of hepatitis C virus (HCV) infection may prevent progression to cirrhosis, hepatocellular carcinoma and end-stage liver disease. The cornerstone of treatment has long been standard IFN-alpha, the use of which was associated with a sustained biochemical and viral response in only a small proportion of patients. More recently, the success of interferon-based regimens has substantially improved due to the combination with the guanosine analogue ribavirin and to the advent of pegylated interferon formulations. However, even the most up-to-date regimens fail to cure the infection in many cases and are limited by side effects and high costs. A better understanding of the HCV genomic organisation, the elucidation of the three-dimensional structures of virally encoded enzymes and the recent development of a HCV-replicon system in human hepatoma (Huh-7) cells have led to significant advances in the development of new antiviral compounds, many of which are under evaluation in clinical trials. The aim of this review is to trace a brief overview of the progress made by interferon-based treatments for hepatitis C since their introduction in the early 1990s, and to highlight the results of recent clinical studies concerning new and emerging drugs.

Rapid decline of viral RNA in hepatitis C patients treated with VX-950: a phase Ib, placebo-controlled, randomized study

BACKGROUND & AIMS

VX-950 specifically inhibits the NS3.4A protease of hepatitis C and has antiviral activity in vitro. This phase I, placebo-controlled, double-blind study evaluated the antiviral activity, pharmacokinetics, and safety of VX-950 in patients with chronic hepatitis C (CHC).

METHODS

Thirty-four patients with genotype 1 CHC were randomized to receive placebo or VX-950 at doses of 450 mg or 750 mg every 8 hours or 1250 mg every 12 hours for 14 days. Of the 34 participants, 27 (79%) had failed prior treatment. Patients were monitored for safety and tolerability of VX-950. Plasma VX-950 concentrations and HCV RNA levels were measured.

RESULTS

VX-950 was well tolerated and had substantial antiviral effects: viral loads dropped > or =2 log(10) in all 28 patients treated with VX-950 and > or =3 log(10) in 26 (93%) of the 28 patients. In the 750-mg-dose group, which had the highest trough plasma drug concentrations, the median reduction of HCV RNA was 4.4 log(10) after 14 days. In the 450-mg and 1250-mg groups, the maximal effect was seen between days 3 and 7 of dosing, and median HCV RNA increased between days 7 and 14; median reductions at day 14 were 2.4 log(10) and 2.2 log(10), respectively. Median alanine aminotransferase levels decreased during dosing in all VX-950 groups.

CONCLUSIONS

VX-950 was well tolerated and demonstrated substantial antiviral activity. Some patients had viral breakthrough during dosing, related to selection of variants with decreased sensitivity to VX-950. The results support further studies of VX-950 in patients with CHC.

[New therapies for hepatitis C]

Hepatitis C virus is an important public health threat, not only because of the high prevalence of this infection in western and third world countries, but also because of the high rate of resistance to the available antiviral therapy that consists on the use of pegylated interferon plus ribavirin. Currently, new forms of therapy are being developed based on a more precise knowledge of the structure and function of the viral proteins and of the strategies used by the virus to escape the immune and interferon systems. The new therapeutic approaches aim at different objectives: a) the inhibition of viral replication by blocking the viral protease and/or replicase; b) the use of other types of interferon with more potent antiviral effect, c) the induction of a specific anti-viral immune response by means of immunomodulatory compounds or therapeutic vaccination, d) the blockade of "de novo" infection of other cells with neutralizing antibodies, e) the induction of a antiviral state in the liver by transferring to this organ the gene of interferon and/or immunostimulating cytokines.

Virology of hepatitis B and C viruses and antiviral targets

Hepatitis B and C viruses belong to two distinct virus families, the Hepadnaviridae and the Flaviviridae, respectively, and have different virological characteristics. Better knowledge of their lifecycles and variability offers the opportunity to develop novel therapeutic approaches and classes of drugs. The issue of cccDNA clearance, however, remains in hepatitis B treatment, whereas HCV infection is curable.

Future Therapies for Hepatitis C

Although pegylated interferon-α plus ribavirin has become the standard for treating chronic hepatitis C virus infection, a substantial number of patients do not tolerate therapy and require dose reduction or discontinuation, or do not respond to this combination therapy. Thus, new therapeutic options are needed. An increased knowledge of the hepatitis C virus and an understanding of its replication cycle, as well as advances in biotechnology, have stimulated the development of numerous new antiviral treatments for patients with hepatitis C virus infection. This review focuses on four classes of new agents: new interferons, ribavirin-like molecules, specific small-molecule hepatitis C virus inhibitors and new immune therapies, with particular emphasis on medications in the later stages of development.

Hepatitis C virus population dynamics during infection

Hepatitis C virus (HCV) behaves as an evolving viral quasispecies in its continuously changing environment. The study of HCV quasispecies population dynamics in experimental models and infected patients can provide useful information on factors involved in the HCV life cycle and pathogenicity. HCV quasispecies variability also has therapeutic implications, as the continuous generation and selection of fitter or truly resistant variants can allow the virus to escape control by antiviral drugs.

Therapy of hepatitis C: from empiricism to eradication

The complications of chronic hepatitis C virus infection can be prevented by antiviral therapy. The initial choice of interferon alfa and, subsequently, ribavirin as potential treatments for chronic hepatitis C was empirical. Nevertheless, the combination of pegylated interferon alfa and ribavirin has become the standard treatment of chronic hepatitis C. Since the advent of interferon-based therapy, enormous progress has been made in understanding the mechanisms of treatment efficacy and failure, and in everyday patient management. The principal advances are: a better understanding of hepatitis C virus steady-state kinetics and the antiviral mechanisms of interferon and ribavirin; easier treatment decisions thanks to novel assays to assess liver disease severity and the virological characteristics of infection; a better use of virological tests to tailor therapy; a better management of adverse effects; a better understanding of virological treatment failure; and a better management of "special" populations, including patients with decompensated cirrhosis and end-stage liver disease, liver transplant recipients, hemodialysis patients and renal transplant recipients, human immunodeficiency virus-coinfected patients, intravenous drug users and patients on opiate replacement therapy, or virological non responders to previous therapies. Steady-state HCV kinetics offers several potential targets for new drugs. These targets should ideally be hit simultaneously in order to achieve viral eradication within a reasonable time frame. Future drugs for HCV infection will belong to four main categories, including new interferons, alternatives to ribavirin, specific HCV inhibitors, and immune modulators. New treatments and vaccines might make it possible to eradicate HCV in the future.

A phase I trial of an antisense inhibitor of hepatitis C virus (ISIS 14803), administered to chronic hepatitis C patients

BACKGROUND/AIMS

ISIS 14803 is a 20-unit antisense phosphorothioate oligodeoxynucleotide that binds to hepatitis C virus (HCV) RNA at the translation initiation region of the internal ribosome entry site (IRES) and inhibits protein expression in cell culture and mouse models. This Phase I, open-label, dose-escalation trial of ISIS 14803 was performed in chronic HCV patients.

METHODS

At least 7 days after receiving an initial single dose, twenty-eight patients received 0.5-3 mg/kg ISIS 14803 thrice weekly for 4 weeks by intravenous infusion or subcutaneous injection.

RESULTS

In most patients, the 4-week treatment did not reduce plasma HCV RNA. However, 3 patients receiving > or =2 mg/kg had transient HCV reductions of 1.2-1.7 log(10) that persisted < or =32 days. These reductions were accompanied by asymptomatic, self-resolving elevations in serum alanine transaminase (ALT) levels to >10x the upper limit of normal. Two other patients had ALT flares without plasma HCV reduction. No clinical signs, symptoms of hepatic dysfunction, or laboratory changes in albumin or prothrombin time accompanied ALT elevations.

CONCLUSIONS

ISIS 14803 treatment was associated with HCV reductions in only 3/28 patients. ALT flares in 5 patients also occurred. Further studies to evaluate ISIS 14803 treatment and the mechanisms of the ALT flares are now required.

Isatoribine, an agonist of TLR7, reduces plasma virus concentration in chronic hepatitis C infection

Immune-based therapy is the mainstay treatment for chronic hepatitis C virus (HCV) infection but causes multiple side effects and achieves durable viral clearance in only approximately 50% of patients. Most new investigational anti-HCV compounds are direct-acting antivirals for which durability of response and risk of viral mutations and resistance are not yet known. Therefore, continuing discovery and development of new immune-based treatments is desirable. Toll-like receptors (TLRs) are pathogen recognition receptors that initiate the innate immune response. The responsiveness of HCV or other ongoing chronic systemic infections to treatment with a selective TLR agonist has not been reported. Isatoribine is a selective agonist of TLR7. In a proof-of-concept study, we found that once-daily 7-day treatment with intravenous isatoribine 800 mg caused a significant (P = .001) reduction of plasma HCV RNA (mean, -0.76; range, -2.85 to +0.21 log(10) units) in otherwise untreated patients (n = 12) who were chronically infected with HCV. Viral load reduction occurred in patients infected with genotype 1 as well as non-genotype 1 HCV. The reduction of viral load was correlated with induction of markers of a heightened immune antiviral state, including 2'-, 5'- oligoadenylate synthetase levels in whole blood. This treatment was well tolerated, with a low frequency of mild to moderate adverse events. In conclusion, systemic administration of the selective TLR7 agonist isatoribine resulted in dose-dependent changes in immunologic biomarkers and a statistically significant antiviral effect with relatively few and mild side effects.

Treatment of hepatitis C

Hepatitis C virus is a leading cause of chronic liver disease, with over 170 million people infected worldwide. It is also the leading indication for liver transplantation. Complications from chronic hepatitis C infection include cirrhosis, hepatic decompensation, and hepatocellular carcinoma. As a result, treatment strategies to prevent such complications have been widely researched, although many questions remain unanswered. To date, the standard therapy for chronic hepatitis C infection is the combination of peginterferon and ribavirin. Treatment strategies differ based on factors such as genotype and liver biopsy results. Other strategies must be considered for special groups, such as patients with acute hepatitis C infection, hepatitis C/human immunodeficiency virus (HIV) coinfection, and prior nonresponse to interferon or relapse after its use. The goal of therapy is to achieve a sustained virologic response (ie, no detectable hepatitis C ribonucleic acid 6 months after completion of therapy). The substantial adverse effects associated with both interferon alfa and ribavirin often make it difficult for patients to continue with their therapies.

Dynamic range of hepatitis C virus RNA quantification with the Cobas Ampliprep-Cobas Amplicor HCV Monitor v2.0 assay

Accurate quantification of hepatitis C virus (HCV) RNA is needed in clinical practice to decide whether to continue or stop pegylated interferon-alpha-ribavirin combination therapy at week 12 of treatment for patients with chronic hepatitis C. Currently the HCV RNA quantification assay most widely used worldwide is the Amplicor HCV Monitor v2.0 assay (Roche Molecular Systems, Pleasanton, Calif.). The HCV RNA extraction step can be automated in the Cobas Ampliprep device. In this work, we show that the dynamic range of HCV RNA quantification of the Cobas Ampliprep/Cobas Amplicor HCV Monitor v2.0 procedure is 600 to 200,000 HCV RNA IU/ml (2.8 to 5.3 log IU/ml), which does not cover the full range of HCV RNA levels in infected patients. Any sample containing more than 200,000 IU/ml (5.3 log IU/ml) must thus be retested after dilution for accurate quantification. These results emphasize the need for commercial HCV RNA quantification assays with a broader range of linear quantification, such as real-time PCR-based assays.

A chimeric GB virus B with 5' nontranslated RNA sequence from hepatitis C virus causes hepatitis in tamarins

Only humans and chimpanzees are fully permissive for replication of hepatitis C virus (HCV), an important cause of liver cirrhosis and cancer worldwide. The absence of suitable animal models limits opportunities for in vivo evaluation of candidate hepatitis C therapeutics and slows progress in the field. Here, we describe a chimeric virus derived from GB virus B (GBV-B), an unclassified hepatotropic member of the family Flaviviridae that is closely related to HCV and infects tamarins (Saguinus sp.), in which a functionally important HCV regulatory sequence replaced an analogous sequence in the 5' nontranslated region (5'NTR) of the GBV-B genome. The transplanted sequence comprised domain III of the internal ribosome entry site (IRES), which directly binds the 40S ribosome subunit and is a target for candidate therapeutics. The chimeric 5'NTR retained ribosome binding activity and was competent in directing protein translation both in cell-free translation reactions and in transfected primary tamarin hepatocyte cultures. Virus rescued from the chimeric RNA replicated in the liver of tamarins, causing biochemical and histopathological changes typical of viral hepatitis. However, adaptive mutations were required elsewhere in the genome for efficient replication. Virus was not rescued from other, translationally competent, chimeric RNAs in which domain II of the IRES was exchanged. Thus, the 5'NTR appears to contain virus-specific replication signals that interact with other sites within the viral genome or with viral proteins. In conclusion, such novel chimeric flaviviruses offer opportunities for new insights into HCV replication mechanisms, while potentially facilitating the evaluation of candidate therapeutics in vivo.

Antiviral efficacy of NS3-serine protease inhibitor BILN-2061 in patients with chronic genotype 2 and 3 hepatitis C

BILN-2061, a specific and potent peptidomimetic inhibitor of the HCV NS3 protease, has recently been shown to markedly lower serum hepatitis C virus (HCV)-RNA levels in patients chronically infected with HCV genotype 1 in three 2-day proof of principle studies. The aim of the current study was to assess the antiviral efficacy of BILN-2061 in patients with genotypes 2 and 3 HCV infection. The antiviral efficacy, pharmacokinetics, and tolerability of 500 mg twice-daily BILN-2061 given as monotherapy for 2 days in 10 patients chronically infected with non-genotype 1 HCV (genotype 2: n = 3; genotype 3: n =7) and minimal liver fibrosis (Ishak score 0-2) were assessed in a placebo-controlled (placebo n = 2), double-blind pilot study. HCV-RNA levels decreased by > or =1 log(10) copies/mL in 4 of 8 patients treated with BILN-2061. One patient showed a weak response of <1 log(10) copies/mL. Three of 8 treated patients showed no response. There was no correlation between baseline viral concentration or genotype and response. BILN-2061 exhibited good systemic exposure after oral administration and was well tolerated. In conclusion, the antiviral efficacy of the HCV serine protease inhibitor BILN-2061 is less pronounced and more variable in patients with HCV genotype 2 or 3 infection compared with previous results in patients with HCV genotype 1. A lower affinity of BILN-2061 for the NS3 protease of genotypes 2 and 3 HCV is most likely a major contributor to these findings.

Liver transplantation and hepatitis C virus: systematic review of antiviral therapy

Antiviral therapy for recurrent hepatitis C after liver transplantation is increasingly used. This systematic review presents both viral and histological response in three areas: pretransplant (5 studies/180 patients), preemptive therapy soon after transplant (10 studies/417 patients), and therapy for established disease (75 studies/2027 patients). There were only 16 randomized studies (543 patients). Significant dose reductions and drug stoppage rates occurred. The data on histological improvement and risk of rejection are conflicting. Even the best antiviral therapy (pegylated interferon/ribavirin) is neither easily used nor reasonably effective. The best strategy will be pretransplant treatment, most likely with newer agents.

Children with hepatitis C

Hepatitis C affects thousands of children throughout the world. Most children acquire the virus through vertical transmission, although parenteral routes of acquisition are also common. Hepatitis C progresses slowly, with mild biopsy findings and no symptoms in most children and in many adults. However, significant liver inflammation and fibrosis can occur in childhood. Trials of antiviral therapy with interferon and ribavirin have shown these drugs to be effective in almost half of the children treated. Children tend to tolerate therapy well. Further research on the natural history and treatment of hepatitis C in children is needed because the infection can have serious long-term consequences, including end-stage liver disease and hepatocellular carcinoma.

Genetic heterogeneity of the NS3 protease gene in hepatitis C virus genotype 1 from untreated infected patients

NS3 protease is essential for hepatitis C Virus (HCV) replication, and is one of the most promising targets for specific anti-HCV therapy. Its natural polymorphism has not been studied at the quasispecies level. In the present work, the genetic heterogeneity of the NS3 protease gene was analyzed in 17 HCV genotype 1 (5 subtypes 1a and 12 subtypes 1b) samples collected from infected patients before anti-viral therapy. A total of 294 clones were sequenced. Although the protease NS3 is considered to be one of the less variable genes in the HCV genome, variability of both nucleotide and amino acid sequences was found. In variants belonging to 1a and 1b subtypes, 224 and 267 of 543 positions showed one or more nucleotide substitutions, respectively. Forty and 74 of the 181 NS3 amino acid positions showed at least one mutation in HCV-1a and HCV-1b isolates, respectively. Most substitutions were conservative. This substantial polymorphism of the NS3 protease produced by HCV-1a and HCV-1b suggests that, despite the numerous functional and structural constraints, the enzyme is sufficiently flexible to tolerate substitutions.

Evolution of the HALT-C Trial: pegylated interferon as maintenance therapy for chronic hepatitis C in previous interferon nonresponders

The Hepatitis C Antiviral Long-term Treatment against Cirrhosis (HALT-C) Trial was designed to determine whether maintenance interferon therapy could slow disease progression in patients who had failed to eradicate hepatitis C virus (HCV) during prior interferon treatment (nonresponders). Ten clinical sites, a virological testing center, and a data coordinating center (DCC) were selected to collaborate in the design and implementation of the final protocol. Eligible patients had been treated previously with interferon for at least 12 weeks, with or without another antiviral, ribavirin, but still had persistent viremia. Because patients had received a variety of prior treatments, and as a perceived benefit of enrollment, we incorporated a Lead-in period of treatment with long-acting pegylated interferon alfa-2a plus ribavirin into the study design, a combination believed to be more effective but not approved by the Food and Drug Administration at the Trial's inception. If patients failed to achieve clearance of virus from the blood after 20 weeks of this Lead-in therapy, they were entered into the main trial at week 24 and randomized to receive either a lower dose of pegylated interferon weekly alone or no further therapy for an additional 3 1/2 years. The original protocol was amended later in three respects to improve enrollment and to adapt to Food and Drug Administration approval of the Lead-in therapy, including allowing patients to proceed directly to the randomized part of the study if treatment resembling the Lead-in had been completed. The protocol changes enhanced enrollment while upholding the original goals of the study and its integrity.

Virological Effects of Isis 14803, An Antisense Oligonucleotide Inhibitor of Hepatitis C Virus (HCV) Internal Ribosome Entry Site (IRES), on HCV Ires in Chronic Hepatitis C Patients and Examination of the Potential Role of Primary and Secondary HCV Resistance in the Outcome of Treatment

Antisense oligonucleotides represent a promising class of antiviral agents. ISIS 14803 is a 20-unit phosphorothioate oligodeoxynucleotide that inhibited hepatitis C virus (HCV) replication and protein expression in cell culture and mouse models. A Phase I dose-escalation clinical study of ISIS 14803 was performed in 24 patients with HCV genotype 1 chronic hepatitis C. The patients received 0.5, 1.0, 2.0 or 3.0 mg/kg of ISIS 14803 for 4 weeks. Two of them receiving 2.0 mg/kg, experienced a significant (>1.0 log10) viral load reduction and nine other patients experienced minor (<1.0 log10) viral load reductions that were difficult to definitively distinguish from assay or patient variations. The aims of this study were to examine the effect of ISIS 14803 on its target site and neighbouring region quasispecies evolution, and to determine whether primary and secondary HCV resistance contributed to the observed virological response rate. The HCV internal ribosome entry site (IRES), including the ISIS 14803 target site in virus specimens collected from patients at baseline and end-of-treatment, was sequenced. An extensive IRES quasispecies analysis was performed in 10 of the patients at various time points before, during and after ISIS 14803 treatment. A significant IRES genetic evolution was found in three out of 10 patients through quasispecies analysis suggesting that treatment with ISIS 14803, a drug designed to bind to HCV RNA, exerted a selective pressure on HCV IRES. However, no mutations in the ISIS 14803 target site, which would inhibit binding of the oligonucleotide to HCV RNA, were detected before (primary resistance) or after treatment (secondary resistance) with the oligonucleotide. Furthermore, no obvious nucleotide changes in the surrounding IRES region that might possibly affect oligonucleotide binding were detected.