The present invention relates to the field of virology, more specifically to the field of zoonotic Coronaviruses. Specifically, the invention provides for binding agents specific for the spike protein receptor binding domain (RBD) of the SARS-Corona virus, more specifically for an epitope of the RBD present in a broad range of Sarbecoviruses and mutants thereof, even more specifically present in SARS-Cov and SARS-CoV-2 viruses. More specifically, the invention relates to compositions comprising antibodies capable of specifically binding and neutralizing SARS-Corona viruses. More specifically the invention relates to compositions comprising single domain antibodies, or specifically VHHs, and compositions comprising multivalent binding agents comprising IgG Fc fusions thereof, specifically VHH-Fc fusions thereof, even more specifically comprising heavy chain only VHH72-S56A-IgG1-Fc fusions, or compositions comprising any humanized form of any one thereof, and are capable of specifically binding and neutralizing SARS-Corona viruses, specifically SARS-Cov-2 virus. The compositions are useful in the diagnosis of Sarbecoviruses, and specifically SARS-CoV-2 virus, and in prophylactic and/or therapeutic treatment of a condition resulting from infections with Sarbecoviruses, specifically SARS-Corona or SARS-CoV-2 virus, or mutants thereof.

Provided is an immunostimulator containing: chitosan and/or a chitosan derivative each having a weight-average molecular weight of 10k to 1000k; and an anionic surfactant, the immunostimulator being in particulate form. Also provided are a pharmaceutical composition and an alimentary product, each containing the immunostimulator as an active ingredient.

Described herein are Zika virus vaccines and compositions and methods of producing and administering said vaccines to subjects in need thereof.

Described herein are Zika virus vaccines and compositions and methods of producing and administering said vaccines to subjects in need thereof.

Disclosed is a new class of conjugated virus-like particles (VLPs). These conjugated VLPs bind a wide variety of tumors and comprise epitopes recognized by a prior T cell immune response already existing in a host. These epitopes are derived from pathogens or previous vaccinations (such as early childhood vaccines). This provokes the body's pre-existing cytotoxic immunity obtained through previous infection or previous childhood vaccination to be redirected to the tumor cells for the elimination of cancer, and form long-term anti-tumor immunity. The described conjugated VLPs are useful for tailoring a broad range of tumors towards a response from existing immunity circumventing the need to identify tumor antigens or generate tumor-specific immune responses. Importantly, the compositions and methods described herein broadens opportunities for treatment for all cancer types in subjects who previously had un-targetable cancers due to various technological and biological limitations of currently available immuno-therapeutic drugs.

A vaccine combination may include first and second vaccines. The first vaccine may include a first fusion protein or a first polynucleotide encoding the first fusion protein. The first fusion protein may include an E7 protein of HPV-16; an E7 protein of HPV-18; an E6 protein of HPV-16; an E6 protein of HPV-18; and a heat shock protein. The second vaccine may include second and third fusion proteins, or a second polynucleotide encoding the second and third fusion proteins. The second fusion protein may include an E6 protein of HPV-16 and an E7 protein of HPV-16. The third fusion protein may include an E6 protein of HPV-18 and an E7 protein of HPV-18. A functional variant may be employed for one or more of the proteins. An amino acid sequence of junction regions in the first fusion protein may be different from those in the second and third fusion proteins.

A vaccine combination may include first and second vaccines. The first vaccine may include a first fusion protein or a first polynucleotide encoding the first fusion protein. The first fusion protein may include an E7 protein of HPV-16; an E7 protein of HPV-18; an E6 protein of HPV-16; an E6 protein of HPV-18; and a heat shock protein. The second vaccine may include second and third fusion proteins, or a second polynucleotide encoding the second and third fusion proteins. The second fusion protein may include an E6 protein of HPV-16 and an E7 protein of HPV-16. The third fusion protein may include an E6 protein of HPV-18 and an E7 protein of HPV-18. A functional variant may be employed for one or more of the proteins. An amino acid sequence of junction regions in the first fusion protein may be different from those in the second and third fusion proteins.

The invention relates to an expression system comprising polynucleotides encoding proteins, wherein the expression system comprises a first polynucleotide encoding at least one protein, peptide or variant thereof, which induces a T cell response, and a second polynucleotide encoding at least one protein, peptide or variant thereof, which induces an anti-pathogenic B cell response. The invention further relates to protein mixtures encoded by the expression system and cells comprising the expression system or the protein mixture and pharmaceutical compositions comprising the expression system or the protein mixture.

The invention relates to an expression system comprising polynucleotides encoding proteins, wherein the expression system comprises a first polynucleotide encoding at least one protein, peptide or variant thereof, which induces a T cell response, and a second polynucleotide encoding at least one protein, peptide or variant thereof, which induces an anti-pathogenic B cell response. The invention further relates to protein mixtures encoded by the expression system and cells comprising the expression system or the protein mixture and pharmaceutical compositions comprising the expression system or the protein mixture.

The present invention relates to single dose parenteral vaccine compositions comprising mixtures of monovalent Norovirus virus-like particles. Methods of conferring protective immunity against Norovirus infections in a human subject by administering such compositions are also disclosed.