Antonietta Valli

Different clinical behaviors of acute hepatitis C virus infection are associated with different vigor of the anti-viral cell-mediated immune response.

The anti-viral T cell response is believed to play a central role in the pathogenesis of hepatitis C virus infection. Since chronic evolution occurs in > 50% of HCV infections, the sequential analysis of the T cell response from the early clinical stages of disease may contribute to define the features of the T cell response associated with recovery or chronic viral persistence. For this purpose, 21 subjects with acute hepatitis C virus infection were sequentially followed for an average time of 44 wk. Twelve patients normalized transaminase values that remained normal throughout the follow-up period; all but two cleared hepatitis C virus-RNA from serum. The remaining nine patients showed persistent viremia and elevated transaminases. Analysis of the peripheral blood T cell proliferative response to core, E1, E2, NS3, NS4, and NS5 recombinant antigens and synthetic peptides showed that responses to all hepatitis C virus antigens, except E1, were significantly more vigorous and more frequently detectable in patients who normalized transaminase levels than in those who did not. By sequential evaluation of the T cell response, a difference between the two groups of patients was already detectable at the very early stages of acute infection and then maintained throughout the follow-up period. The results suggest that the vigor of the T cell response during the early stages of infection may be a critical determinant of disease resolution and control of infection.

Identification of immunodominant T cell epitopes of the hepatitis B virus nucleocapsid antigen.

Several lines of experimental evidence suggest that inclusion of core sequences in the hepatitis B vaccine may represent a feasible strategy to increase the efficacy of the vaccination. In order to identify immunodominant core epitopes, peripheral blood T cells purified from 23 patients with acute hepatitis B and different HLA haplotypes were tested with a panel of 18 short synthetic peptides (15 to 20 amino acids [AA]) covering the entire core region. All patients except one showed a strong T cell proliferative response to a single immunodominant 20 amino acid sequence located within the aminoterminal half of the core molecule. Two additional important sequences were also identified at the aminoterminal end and within the carboxyterminal half of the core molecule. These sequences were able to induce significant levels of T cell proliferation in 69 and 73% of the patients studied, respectively. T cell response to these epitopes was HLA class II restricted. The observations that (a) polyclonal T cell lines produced by PBMC stimulation with native HBcAg were specifically reactive with the relevant peptides and that (b) polyclonal T cell lines produced with synthetic peptides could be restimulated with native HBcAg, provide evidence that AA sequences contained within the synthetic peptides represent real products of the intracellular processing of the native core molecule. In conclusion, the identification of immunodominant T cell epitopes within the core molecule provides the molecular basis for the design of alternative and hopefully more immunogenic vaccines.

The preS1 antigen of hepatitis B virus is highly immunogenic at the T cell level in man.

14 hepatitis B vaccine recipients who showed high titers of anti-hepatitis B surface antibodies in serum after booster immunization with a polyvalent hepatitis B surface antigen vaccine that contained trace amounts of hepatitis B virus (HBV) preS1 and preS2 envelope antigens were studied for their in vitro T cell response to these antigens. All 14 subjects displayed a significant proliferative T cell response to the S/p25 envelope region encoded polypeptide; 8 also responded to preS1, while only 1 showed a significant level of T cell proliferation to preS2. Limiting dilution analysis demonstrated that the frequency of preS-specific T cells in two of these vaccine recipients was higher than that of S/p25-specific T cells. T cell cloning was then performed and a total of 29 HBV envelope antigen-reactive CD4+ cloned lines were generated from two preS-responsive vaccines. 21 of these lines were S/p25 specific, 7 preS1 specific, and 1 preS2 specific. Taken together, all these results suggest that the preS1 antigen may function as a strong T cell immunogen in man.

Fine specificity of the human T-cell response to the hepatitis B virus preS1 antigen

The T-cell response to hepatitis B virus envelope antigens was studied in 11 hepatitis B vaccine recipients; 7 were selected to analyze the fine specificity of the T-cell response to the preS1 antigen. Four distinct T-cell epitopes were identified by peripheral blood lymphomononuclear cell stimulation with a panel of short synthetic peptides covering the preS1 sequence. The immunodominance of the preS1 epitopes included within peptides 21-30 and 29-48 was shown by their capacity to restimulate an HLA class II restricted proliferative response of T cells primed with the whole preS1 antigen. Conversely, peptide-specific T cells selected by peripheral blood lymphomononuclear cell stimulation with peptides 21-30 and 29-48 were able to recognize the native preS1 molecule, confirming that these epitopes are actually generated by the intracellular processing of preS1. Finally, amino acid residues essential for T-cell activation by peptide 21-30 were identified using 10 analogues of the stimulatory peptide containing single alanine substitutions. These results may be relevant to the design of efficient synthetic vaccines against hepatitis B virus infection.

Immunopathogenesis of hepatitis C virus infection

ESOLUTION of acute hepatitis C is generally associR ated with detection of neutralizing antibodies, a high frequency of circulating HCV-specific T cells with a predominant production of Thl cytokines. In contrast, T cell responses in the peripheral blood are usually undetectable in the acute phase of disease and are oriented towards a predominant production of Th2 cytokines when infection becomes chronic. Therefore, different strengths and quality of T cell responses at the early stages of infection may influence the evolution of hepatitis C but the primary causes of these different behaviors are still undefined. A good proportion of patients with long-lasting chronic HCV infection display detectable levels of peripheral blood cytotoxic T lymphocyte (CTL) responses and produce neutralizing anti-envelope antibodies. Moreover, the frequency of intrahepatic HCVspecific CTL seems to be high in these patients, the CTL response is multispecific and the liver environment is characterized by a predominant production of Thl cytokines. Therefore, at this stage of infection the virus appears to have acquired the capacity to escape immune surveillance and to persist in the face of an active antiviral immune response. If these observations derived from in vitro studies actually reflect the strength and the quality of the immune responses in vivo, inhibition of viral replication rather than modulation of the immune response should represent the main objective of anti-HCV therapies once a chronic

Immune pathogenesis of hepatitis B

Available information about the immune pathogenesis of HBV infection in man is very limited. However, the present availability of recombinant sources of the different HBV antigens expressed in the appropriate forms to induce activation of either HLA class I or HLA class II-restricted T cells, provides the necessary tools to investigate directly the mechanisms of liver damage, the role of the different cellular components of the immune system in HBV clearance and the specific nature of the immune defects potentially responsible for the chronic evolution of HBV infection. In addition, improved knowledge of HBV biology suggests a dynamic interpretation of the HBV-immune system interactions, based on which viral mutations as well as direct interferences of HBV with specific immune functions are believed to play a relevant role with respect to the outcome of HBV infection.

Cell-mediated Immune Response in Hepatitis C Virus (HCV) Infection: Are Different Strategies Adopted by HCV and Hepatitis B Virus to Persist?

Immune-mediated mechanisms play an important role in the pathogenesis of liver cell injury and viral persistence in both HCV and hepatitis B virus (HBV) infections. However, the different vigor of HLA class I and class II restricted, anti-viral T cell responses in chronic hepatitis C and B and the different cytokine profiles within HCV and HBV infected livers suggest that these hepatotropic viruses have evolved different strategies to persist within their hosts and that different pathogenetic mechanisms are operative during HCV and HBV infections.