Naturally occurring dominant resistance mutations to hepatitis C virus protease and polymerase inhibitors in treatment-naïve patients.

UNLABELLED: Resistance mutations to hepatitis C virus (HCV) nonstructural protein 3 (NS3) protease inhibitors in <1% of the viral quasispecies may still allow >1000-fold viral load reductions upon treatment, consistent with their reported reduced replicative fitness in vitro. Recently, however, an R155K protease mutation was reported as the dominant quasispecies in a treatment-naïve individual, raising concerns about possible full drug resistance. To investigate the prevalence of dominant resistance mutations against specifically targeted antiviral therapy for HCV (STAT-C) in the population, we analyzed HCV genome sequences from 507 treatment-naïve patients infected with HCV genotype 1 from the United States, Germany, and Switzerland. Phylogenetic sequence analysis and viral load data were used to identify the possible spread of replication-competent, drug-resistant viral strains in the population and to infer the consequences of these mutations upon viral replication in vivo. Mutations described to confer resistance to the protease inhibitors Telaprevir, BILN2061, ITMN-191, SCH6 and Boceprevir; the NS5B polymerase inhibitor AG-021541; and to the NS4A antagonist ACH-806 were observed mostly as sporadic, unrelated cases, at frequencies between 0.3% and 2.8% in the population, including two patients with possible multidrug resistance. Collectively, however, 8.6% of the patients infected with genotype 1a and 1.4% of those infected with genotype 1b carried at least one dominant resistance mutation. Viral loads were high in the majority of these patients, suggesting that drug-resistant viral strains might achieve replication levels comparable to nonresistant viruses in vivo. CONCLUSION: Naturally occurring dominant STAT-C resistance mutations are common in treatment-naïve patients infected with HCV genotype 1. Their influence on treatment outcome should further be characterized to evaluate possible benefits of drug resistance testing for individual tailoring of drug combinations when treatment options are limited due to previous nonresponse to peginterferon and ribavirin.

Controlled Therapy Interruption Improves Host Immune Control of Chronic Hepatitis B Virus Infection in HBeAg-Positive Patients.

Prolonged viral suppression with oral antiviral drugs allows partial immune reconstitution. Controlled therapy interruption (CTI), by leveraging secondary immune response, proposes further augmentation in chronic hepatitis B virus (HBV) infection. Transient treatment interruptions (TIs) at months 0, 1, and 3 during otherwise continuous oral antiviral therapy allow viremic bursts, simulating autovaccination. Four weekly injections of Hepatitis B Immunoglobulin are given before the second and third TI to simulate prime boosting, which specifically amplifies the immune response. Fourteen patients (10 males; four controls, four HBeAg positive, and six anti-HBe positive) aged 28-46 years were studied. The period between TI and reappearance of viremia, time to relapse (TTR) (weeks) estimated immune control. The other endpoints included reduction in serum HBsAg IU/mL and loss of HBeAg. TTR after the first TI was significantly shorter in HBeAg-positive patients, indicating low baseline immunity. TTR increased significantly after the second and subsequent TI in all four HBeAg-positive patients. One patient persistently lost HBeAg. Mean HBsAg levels fell significantly in three of four patients after the second TI. In contrast, in the anti-HBe-positive group, TTR was unchanged after all three TI. Furthermore, no significant changes in HBsAg levels were detected after the second or subsequent TIs. No significant differences in adverse events were noted between groups. HBeAg-positive patients have low baseline levels of host immune control against HBV. CTI consistently boosts this immunity. CTI did not influence immunity in anti-HBe-positive patients.

Clonal expansion of immunoglobulin M+CD27+ B cells in HCV-associated mixed cryoglobulinemia.

Hepatitis C virus (HCV) is associated with B-cell lymphoproliferative disorders such as mixed cryoglobulinemia (MC) and B-cell non-Hodgkin lymphoma (B-NHL). The pathogenesis of these disorders remains unclear, and it has been proposed that HCV drives the pro-liferation of B cells. Here we demonstrate that certain HCV(+)MC(+) subjects have clonal expansions of immunoglobulin M (IgM)(+)kappa(+)IgD(low/-)CD21(low)CD27(+) B cells. Using RT-PCR to amplify Ig from these singly sorted cells, we show that these predominantly rheumatoid factor-encoding V(H)1-69/J(H)4 and V(kappa)3-20 gene segment-restricted cells have low to moderate levels of somatic hypermutations. Ig sequence analysis suggests that antigen selection drives the generation of mutated clones. These findings lend further support to the notion that specific antigenic stimulation leads to B-cell proliferation in HCV MC and that chronic B-cell stimulation may set the stage for malignant transformation and the development of B-NHL. The finding that these hypermutated, marginal zone-like IgM(+)CD27(+) B cells are clonally expanded in certain subjects with MC offers insight into mechanisms of HCV-associated MC and B-cell malignancy. This study was registered at www.clinicaltrials.gov as NCT00219999.

Hepatitis C Virus-related Mixed Cryoglobulinemia: Pathogenesis, Clinica Manifestations, and New Therapies.

Within the past decade, it has been recognized that a majority of patients with essential mixed cryoglobulinemia (MC) are chronically infected with hepatitis C virus (HCV). Although the underlying mechanisms have not been fully elucidated, cryoglobulin formation is clearly linked to the attempt of the host to clear the significant quantities of virions generated daily by the chronic infection. This review summarizes the current understanding of the relationship between chronic HCV infection and the development of MC, and discusses the interaction between the immune system and HCV and how this interaction can lead to the development of lymphoproliferative disorders.