Efficient cellular and humoral immune response and production of virus-neutralizing antibodies by the Hepatitis B Virus S/preS116-42 antigen

Ana-Maria Pantazica; Mihaela-Olivia Dobrica; Catalin Lazar; Cristina Scurtu; Catalin Tucureanu; Iuliana Caras; Irina Ionescu; Adriana Costache; Adrian Onu; Jihong Liu Clarke; Crina Stavaru; Norica Branza-Nichita

doi:10.3389/fimmu.2022.941243

Efficient cellular and humoral immune response and production of virus-neutralizing antibodies by the Hepatitis B Virus S/preS1^16-42 antigen

Front Immunol. 2022 Jul 22:13:941243. doi: 10.3389/fimmu.2022.941243. eCollection 2022.

Affiliations

¹ Department of Viral Glycoproteins, Institute of Biochemistry of the Romanian Academy, Bucharest, Romania.
² Immunology Laboratory, "Cantacuzino" Medico-Military National Research Institute, Bucharest, Romania.
³ Division of Biotechnology and Plant Health, NIBIO - Norwegian Institute for Bioeconomy Research, Ås, Norway.

Abstract

Despite the availability of improved antiviral therapies, infection with Hepatitis B virus (HBV) remains a3 significant health issue, as a curable treatment is yet to be discovered. Current HBV vaccines relaying on the efficient expression of the small (S) envelope protein in yeast and the implementation of mass vaccination programs have clearly contributed to containment of the disease. However, the lack of an efficient immune response in up to 10% of vaccinated adults, the controversies regarding the seroprotection persistence in vaccine responders and the emergence of vaccine escape virus mutations urge for the development of better HBV immunogens. Due to the critical role played by the preS1 domain of the large (L) envelope protein in HBV infection and its ability to trigger virus neutralizing antibodies, including this protein in novel vaccine formulations has been considered a promising strategy to overcome the limitations of S only-based vaccines. In this work we aimed to combine relevant L and S epitopes in chimeric antigens, by inserting preS1 sequences within the external antigenic loop of S, followed by production in mammalian cells and detailed analysis of their antigenic and immunogenic properties. Of the newly designed antigens, the S/preS1^16-42 protein assembled in subviral particles (SVP) showed the highest expression and secretion levels, therefore, it was selected for further studies in vivo. Analysis of the immune response induced in mice vaccinated with S/preS1^16-42- and S-SVPs, respectively, demonstrated enhanced immunogenicity of the former and its ability to activate both humoral and cellular immune responses. This combined activation resulted in production of neutralizing antibodies against both wild-type and vaccine-escape HBV variants. Our results validate the design of chimeric HBV antigens and promote the novel S/preS1 protein as a potential vaccine candidate for administration in poor-responders to current HBV vaccines.

Keywords: HBV; SVP; adjuvants; antigens; chimeric proteins; vaccine design.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Antibodies, Blocking
Antibodies, Neutralizing
Hepatitis B Surface Antigens*
Hepatitis B Vaccines
Hepatitis B virus*
Immunity, Humoral
Mammals
Mice
Mice, Inbred BALB C
Vaccines, Synthetic

Substances

Antibodies, Blocking
Antibodies, Neutralizing
Hepatitis B Surface Antigens
Hepatitis B Vaccines
Vaccines, Synthetic