The disclosure relates to vaccination compositions, for example, against human papillomavirus, Zika virus, and flu virus. The disclosure also relates to vectors for producing the virus-like particles and immune complex platforms of the vaccination compositions.

The compositions and methods are described for generating an immune response to a hepatitis B virus. The compositions and methods described herein relate to a modified vaccinia Ankara (MVA) vector encoding one or more viral antigens for generating a protective immune response to a hepatitis B virus, in the subject to which the vector is administered. The compositions and methods of the present invention are useful both prophylactically and therapeutically and may be used to prevent and/or treat an infection caused by hepatitis B virus.

Fusion proteins comprising one or more portions of hepatitis virus core antigen (HBcAg) fused to immunogenic portions of influenza virus hemagglutinin (HA) protein, and nanoparticles (virus-like particles) formed from such proteins, nucleic acid molecules encoding such proteins, methods of making such nanoparticles, methods of using the disclosed nanoparticles to vaccinate an individual against influenza virus, and antibodies elicited by vaccination of a mammal with the disclosed nanoparticles.

The disclosure relates to vaccination compositions, for example, against human papillomavirus, Zika virus, and flu virus. The disclosure also relates to vectors for producing the virus-like particles and immune complex platforms of the vaccination compositions.

Provided is a recombinant Hansenula polymorpha-based high dosage hepatitis B vaccine, an HBsAg pure stock solution yield of a recombinant Hansenula polymorpha fermentation broth used for producing the hepatitis B vaccine being 300 mg/L-400 mg/L.

This invention reveals the pharmaceutical composition that includes the surface antigen (HBsAg) of the hepatitis B virus (HBV) and the antigen of the nucleocapsid (or core, HBcAg) of the same virus. The HBcAg of this composition contains messenger ribonucleic acid (mRNA) at a proportion of over 45% of the total amount of ribonucleic acid (RNA) in this antigen. Because of the changes in the constitution of the antigens forming it, the composition of the invention is useful for the prevention or treatment of chronic hepatitis B. It also covers the use of this pharmaceutical composition in the production of a drug for immuno-prophylaxis or immunotherapy against HBV infection, and its use to increase the immune response against an additional antigen that is co-administered with the mixture of these antigens.

The invention is directed to compositions and methods for the stabilization of viral and bacterial vaccines. Vaccines of the invention are contained in VLPs with stabilizing agents such as, for example, sugar alcohols (e.g., sorbitol) and degraded gelatins. Preferably the gelatin has an average molecular weight of 10,000 kilodaltons or less. These vaccines have a substantially improved thermostability as well as long term stability. The invention is also directed to the manufacture of a vaccine or the invention and methods for the administration of a vaccine of the invention to patients.

The invention is directed to vaccines comprising capsular polysaccharides conjugated to one or more components of virus like particles (VLP), and methods for the administration of and methods for the manufacture of vaccines of the invention. Preferably vaccines of the invention generate a therapeutically effective response in an individual in need thereof to multiple strains and/or serotypes of the same or of different infectious agents. Preferably such vaccines generate a therapeutically effective immune response to all pathogenic strains and/or serotypes of the same infectious agent. In particular, the invention is directed to methods and compositions for the cost efficient administration of a vaccine to a patient in need thereof exposing the patient's immune system to only the immunogenic components that are likely to be beneficial for the generation of a protective immunological response, both efficacy and safety are increased and cost effectively.

Genetically modified HBc polypeptides are provided.

The present invention relates to recombinant self-assembling protein nanoparticles presenting an albumin-binding peptide at the surface. For the recombinant self-assembling protein nanoparticles according to the present invention, an albumin-binding peptide can reduce the immunogenicity of the recombinant self-assembling protein nanoparticles because the albumin-binding peptide is presented at the surface, and thus binds to an albumin protein present in vivo, and the albumin-binding peptide can also provide the cancer delivery function of the recombinant self-assembling protein nanoparticles because the albumin-binding peptide binds to albumin around cancer. Simultaneously, the binding of the albumin-binding peptide to albumin can significantly increase the in vivo residence time of the recombinant self-assembling protein nanoparticles, thus increasing the potential for use in various medical applications.