Abstract
Hepatitis B virus capsid-like particles (CLPs), icosahedral assemblies formed by 90 or 120 core protein dimers, hold promise as immune-enhancing vaccine carriers for heterologous antigens. Insertions into the immunodominant c/e1 B cell epitope, a surface-exposed loop, are especially immunogenic. However, display of whole proteins, desirable to induce multispecific and possibly neutralizing antibody responses, can be restrained by an unsuitable structure of the foreign protein and by its propensity to undergo homomeric interactions. Here we analyzed CLP formation by core fusions with two distinct variants of the dimeric outer surface lipoprotein C (OspC) of the Lyme disease agent Borrelia burgdorferi. Although the topology of the termini in the OspC dimer does not match that of the insertion sites in the carrier dimer, both fusions, coreOspCa and coreOspCb, efficiently formed stable CLPs. Electron cryomicroscopy clearly revealed the surface disposition of the OspC domains, possibly with OspC dimerization occurring across different core protein dimers. In mice, both CLP preparations induced high-titered antibody responses against the homologous OspC variant, but with substantial cross-reactivity against the other variant. Importantly, both conferred protection to mice challenged with B. burgdorferi. These data show the principal applicability of hepatitis B virus CLPs for the display of dimeric proteins, demonstrate the presence in OspC of hitherto uncharacterized epitopes, and suggest that OspC, despite its genetic variability, may be a valid vaccine candidate.
Highlights
The icosahedral nucleocapsid of hepatitis B virus (HBV)2 is formed by multiple dimeric copies of the 183-residue core protein
Direct confirmation of efficient capsid-like particles (CLPs) formation was obtained by negative staining electron microscopy (EM) that revealed abundant particles exhibiting, compared with wild-type CLPs, a rough surface that on some particles appeared to consist of distinct spikes (Fig. 3B)
The present study demonstrates that two distinct variants of a complex dimeric lipoprotein of B. burgdorferi, OspCa and OspCb, can successfully be presented on such CLPs; that the outer surface protein C (OspC) polypeptide chains are exposed on the particle surface, possibly in a patchwork of OspC dimers
Summary
Despite the substantial inter-strain and intra-strain variability of OspC (34 –36), which has questioned its usefulness as a vaccine, the different OspC variants might have common interaction partners, e.g. the immunosuppressive Salp protein from tick saliva [37, 38], and shared epitopes. We generated fusions of the HBV core protein with two variants of OspC, termed OspCa and OspCb, that according to molecular modeling form the typical mushroom-like dimer structures but differ at 15 surface-exposed aa positions We addressed their ability to form CLPs, looked into the structural consequences of the nonmatching dimeric insert structure by electron microscopy and image reconstruction, and monitored their immunogenicity and protective potential in the mouse model
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