Structural and antigenic definition of hepatitis C virus E2 glycoprotein epitopes targeted by monoclonal antibodies

Hepatitis C virus (HCV) is the major cause of chronic liver disease as well as the major indication for liver transplantation worldwide. Current standard of care is not completely effective, not administrable in grafted patients, and burdened by several side effects. This incomplete effectiveness is mainly due to the high propensity of the virus to continually mutate under the selective pressure exerted by the host immune response as well as currently administered antiviral drugs. The E2 envelope surface glycoprotein of HCV (HCV/E2) is the main target of the host humoral immune response and for this reason one of the major variable viral proteins. However, broadly cross-neutralizing monoclonal antibodies (mAbs) directed against HCV/E2 represent a promising tool for the study of virus-host interplay as well as for the development of effective prophylactic and therapeutic approaches. In the last few years many anti-HCV/E2 mAbs have been evaluated in preclinical and clinical trials as possible candidate antivirals, particularly for administration in pre- and post-transplant settings. In this review we summarize the antigenic and structural characteristics of HCV/E2 determined through the use of anti-HCV/E2 mAbs, which, given the absence of a crystal structure of this glycoprotein, represent currently the best tool available

Molecular signatures of hepatitis C virus (HCV)-induced type II mixed cryoglobulinemia (MCII)

The role of hepatitis C virus (HCV) infection in the induction of type II mixed cryoglobulinemia (MCII) and the possible establishment of related lymphoproliferative disorders, such as B-cell non-Hodgkin lymphoma (B-NHL), is well ascertained. However, the molecular pathways involved and the factors predisposing to the development of these HCV-related extrahepatic complications deserve further consideration and clarification. To date, several host- and virus-related factors have been implicated in the progression to MCII, such as the virus-induced expansion of selected subsets of B-cell clones expressing discrete immunoglobulin variable (IgV) gene subfamilies, the involvement of complement factors and the specific role of some HCV proteins. In this review, we will analyze the host and viral factors taking part in the development of MCII in order to give a general outlook of the molecular mechanisms implicated

HCV Proteins and Immunoglobulin Variable Gene (IgV) Subfamilies in HCV-Induced Type II Mixed Cryoglobulinemia: A Concurrent Pathogenetic Role

The association between hepatitis C virus (HCV) infection and type II mixed cryoglobulinemia (MCII) is well established, but the role played by distinct HCV proteins and by specific components of the anti-HCV humoral immune response remains to be clearly defined. It is widely accepted that HCV drives the expansion of few B-cell clones expressing a restricted pool of selected immunoglobulin variable (IgV) gene subfamilies frequently endowed with rheumatoid factor (RF) activity. Moreover, the same IgV subfamilies are frequently observed in HCV-transformed malignant B-cell clones occasionally complicating MCII. In this paper, we analyze both the humoral and viral counterparts at the basis of cryoglobulins production in HCV-induced MCII, with particular attention reserved to the single IgV subfamilies most frequently involved

Anti-hepatitis C virus E2 (HCV/E2) glycoprotein monoclonal antibodies and neutralization interference

The suggested HCV escape mechanism consisting in the elicitation of antibody (Ab) subpopulations interfering with the neutralizing activity of other Abs has recently been questioned. In particular, it was originally reported that Abs directed against the 436-447 region (epitope II) of HCV/E2 glycoprotein may interfere with the neutralizing Abs directed against the 412-423 region (epitope I) involved in the binding to CD81. In this paper, we investigate on the molecular features of this phenomenon describing an anti-HCV/E2 monoclonal Ab (mAb) (e509) endowed with a weak neutralizing activity, and whose epitope is centered on epitope II. Interestingly, e509 influenced the potent neutralizing activity of AP33, one of the best characterized anti-HCV/E2 mAb, whereas it did not show any interfering activity against two other broadly neutralizing mAbs (e20 and e137), whose epitopes partially overlap with that of e509 and which possibly displace it from the antigen.These data may give a possible clue to interpret the conflicting studies published to date on the mechanism of interference, suggesting the existence of at least two groups of broadly neutralizing anti-HCV/E2 Abs: (i) those whose epitope is focused on the 412-423 CD81-binding region and whose activity may be hampered by other Abs directed against the 436-447 region, and (ii) those directed against CD81-binding regions but whose epitope contains also residues within the 436-447 region recognized by interfering mAbs, thus competing with them for binding. The conflicting results of previous studies may therefore depend on the relative amount of each of these two populations in the polyclonal preparations used. Overall, a better comprehension of this phenomenon may be of importance in the set up of novel mAb-based anti-HCV therapeutic strategie