In vitro replicative properties of replicons constructed using sequence variants of the hepatitis C virus strain AD78 that caused a single-source outbreak of hepatitis C.

For many aspects of HCV research it would be very useful to have a set of replicons in which different genome regions are swapped by corresponding fragments from isolates of the same viral strain that might demonstrate different biological characteristics or bear evolving antigenic determinants. The isolates of the same HCV strain that are necessary for generation of such hybrid replicons might be obtained from a single-source outbreak of HCV infection. One such outbreak caused by the HCV AD78 strain, occurred in Germany due to infection of women by contaminated anti-D globulin. Using a sequential substitution of different segments of the Con1 replicon with the corresponding fragments from the AD78 strain of HCV, a set of chimeric Con1/AD78 subgenomic and full-length, AD78-based genomic replicons were generated. These replicons might be used as a new experimental tool for different aspects of HCV research, including studies of the nature of isolate-specific differences in interactions of the replicon with the host cell and analysis of the mechanisms of HCV resistance to antivirals. The newly generated full-length replicon can also be used for preparation of AD78-specific target cell lines, which may be invaluable for the analysis of the evolution of HCV cellular immune responses in the cohort of patients infected with the HCV AD78 strain.

Escape from HLA-B*08-restricted CD8 T cells by hepatitis C virus is associated with fitness costs.

The inherent sequence diversity of the hepatitis C virus (HCV) represents a major hurdle for the adaptive immune system to control viral replication. Mutational escape within targeted CD8 epitopes during acute HCV infection has been well documented and is one possible mechanism for T-cell failure. HLA-B*08 was recently identified as one HLA class I allele associated with spontaneous clearance of HCV replication. Selection of escape mutations in the immunodominant HLA-B*08-restricted epitope HSKKKCDEL(1395-1403) was observed during acute infection. However, little is known about the impact of escape mutations in this epitope on viral replication capacity. Their previously reported reversion back toward the consensus residue in patients who do not possess the B*08 allele suggests that the consensus sequence in this epitope is advantageous for viral replication in the absence of immune pressure. The aim of this study was to determine the impact of mutational escape from this immunodominant epitope on viral replication. We analyzed it with a patient cohort with chronic HCV genotype 1b infection and in a single-source outbreak (genotype 1b). Sequence changes in this highly conserved region are rare and selected almost exclusively in the presence of the HLA-B*08 allele. When tested in the subgenomic replicon (Con1), the observed mutations reduce viral replication compared with the prototype sequence. The results provide direct evidence that escape mutations in this epitope are associated with fitness costs and that the antiviral effect of HLA-B*08-restricted T cells is sufficiently strong to force the virus to adopt a relatively unfavorable sequence.

Interferon-alpha and ribavirin resistance of Huh7 cells transfected with HCV subgenomic replicon.

To model HCV resistance to a treatment with interferon-alpha (IFN-alpha) and ribavirin, Huh7 cells, bearing HCV subgenomic replicons, were treated with these compounds for several weeks. Analysis of the cell clones, which were able to support replication of HCV RNA in the presence of high concentrations of these antivirals, demonstrated that the observed resistance was due to changes in the host cell phenotype but not to the emergence of resistant variants of the replicon. No changes in the type I IFN receptor mRNA levels or sequences were found in IFN-treated cells suggesting that the observed resistance of replicon-containing cells to IFN-alpha was caused by modifications of some other cellular factors. The resistance of cells to high concentrations of ribavirin was due to a single point mutation in the NS5A gene of the HCV replicon, and was not associated with a defect in a ribavirin uptake. This mutation, however, did not change the sensitivity of the replicon itself to this antiviral.

Nonstructural protein 5A does not contribute to the resistance of hepatitis C virus replication to interferon alpha in cell culture.

The hepatitis C virus (HCV) subgenomic replicon system was used to study a possible involvement of nonstructural protein 5A (NS5A) in the mechanisms of HCV resistance to interferon alpha (IFN-alpha). A series of chimeric HCV replicons was constructed. In these replicons, the NS5A gene in the backbone of the Con1 replicon was swapped by corresponding fragments obtained from four IFN-alpha responder and four IFN-alpha nonresponder patients that had been infected with the same HCV AD78 strain. Experiments with transfected Huh7 cells did not reveal significant differences in sensitivity of HCV RNA replication to IFN-alpha in cell clones, bearing chimeric Con1/AD78 replicons with NS5A sequences from IFN responders and nonresponders. Thus, these data provide no evidence that the NS5A protein contributes to the resistance of HCV replication to IFN-alpha.

Poinsettia latent virus is not a cryptic virus, but a natural polerovirus-sobemovirus hybrid.

The biochemical and genetic features of Poinsettia latent virus (PnLV, formerly named Poinsettia cryptic virus), which is spread worldwide in commercial cultivars of Euphorbia pulcherrima without inducing symptoms, have been determined using virus-purification, immunological techniques, electron microscopy, cloning, and sequencing. PnLV was found to be a chimeric virus with one 4652 bases, plus strand RNA showing a close relationship to poleroviruses within the first three quarters of its genome but to sobemoviruses in the last quarter. Thus, we propose to classify this virus as "polemovirus". Similarities of protein and nucleic acid sequences at the 5' and extreme 3' end of its RNA suggest a replication mode like that of poleroviruses, whereas the coat protein sequence is closely related to that of sobemoviruses. Consistent with these results, PnLV forms stable icosahedra of 34 nm in diameter. The consequences for the taxonomy of PnLV and for gardeners' practice are discussed.