A new approach for therapeutic vaccination against chronic HBV infections.

Vaccine

Paul-Ehrlich-Institut, Division of Virology, D-63325 Langen, Germany; German Center for Infection Research (DZIF), Gießen-Marburg, Langen, Germany. Electronic address:

Published: March 2020

There are currently about 257 million people suffering from chronic HBV infection worldwide. In many cases, an insufficient Tcell response is causative for establishment of a chronic infection. To ensure a robust cellular immune response and induction of neutralizing antibodies a novel vaccine platform based on modified cell-permeable HBV capsids was utilized. Cell permeability was achieved by fusion of the membrane-permeable TLM-peptide to HBV core monomers, assembling the capsids. Insertion of a Strep-tagIII into the spike tip domain that protrudes from the capsid surface enables flexible loading with antigens that are fused to streptavidin. In this study, HBV surface antigen-derived PreS1PreS2 domain, fused to monomeric streptavidin, served as cargo antigen. Binding between antigen and capsids was characterized by surface plasmon resonance spectroscopy, electron microscopy and density gradient centrifugation. Confocal immunofluorescence microscopy and in vivo imaging of immunized mice demonstrated membrane permeability of cargo-loaded carriers and spread of antigen over the whole organism. Immunization experiments of mice revealed a robust induction of a specific cellular immune response, leading to destruction of HBV-positive cells and induction of HBV-specific neutralizing antibodies. Membrane permeability of these carriers allows needle-free application of antigen-loaded capsids as evidenced by induction of an HBV-specific CTL response and HBV-specific B cell response after oral or transdermal vaccination. These data indicate that cell-permeable antigen carriers, based on HBV capsids and loaded with HBV antigen, have the capacity to induce a cellular and a neutralizing humoral immune response. In addition, cell permeability of the vaccine platform enables antigen transfer across several cell layers, that could allow oral or transdermal immunization.

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Source
http://dx.doi.org/10.1016/j.vaccine.2020.02.063DOI Listing

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