The present invention relates to prime-boost regimens that involve the administration of at least one mRNA construct, such as the use of such constructs in “boost” administration subsequently to “prime” administration of certain other antigenic composition(s). Such inventive regimens may, in particular, be useful for the induction of an immune response in a subject, and/or the vaccination of such subject against infection from one or more pathogens, and/or the treatment or prevention of one or more diseases or conditions, including a tumour or cancer, allergy or autoimmune conditions, and/or a disease or condition associated with infection from a pathogen. The present invention further describes methods, uses, vaccination compositions, kits and packaged vaccine components related to or useful for one or more of such regimens.

The disclosure provides native outer membrane vesicle (NOMV) vaccines containing a coronavirus receptor binding domain (RBD) modified to be a lipoprotein. Also provided are compositions comprising a meningococcal strain having a plasmid-borne gene encoding the SARS-CoV-2 RBD modified to be a lipoprotein. Also provided are a meningococcal strain and a NOMV vaccine containing a plasmid coding for the SARS-CoV-2 RBD with a promoter/enhancer and polyA sequence that provide for expression of the RBD in mammalian cells.

The present invention concerns a nucleotide sequence expressing a fusion protein, said fusion protein comprising or consisting of an exosome-anchoring protein fused at its C-terminus with an antigen, or a DNA expression vector comprising said nucleotide sequence, for use as vaccine.

The present disclosure relates to a compound of Formula (I)

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or a pharmaceutically acceptable salt thereof, which can be incorporated into a lipid particle for delivering an active agent, such as a nucleic acid.

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 present invention relates to non-immunogenic RNA. This RNA forms the basis for the development of therapeutic agents for inducing tolerance towards an autoantigen and thus, for the treatment of autoimmune diseases.

An immunogenic composition forming a vaccine includes a nanoparticle delivery system comprising at least a nanoparticle, wherein the at least a nanoparticle comprises a lipid layer exterior including a plurality of lipids, cholesterol, and a primary alkyl amine including a positively charged amino group head and at least a carbon tail and an antigen incorporated in the at least a nanoparticle, wherein the antigen comprises a nucleic acid encoding a protein from a coronavirus.

Aspects of the disclosure relate to nucleic acid vaccines. The vaccines include one or more RNA polynucleotides having an open reading frame encoding one or more Chikungunya antigen(s), one or more Zika virus antigens, and one or more Dengue antigens. Methods for preparing and using such vaccines are also described.

The present invention is in the field of immunotherapy, in particular tumor immunotherapy. The present invention provides pharmaceutical formulations for delivering RNA to antigen presenting cells such as dendrite cells (DCs) in the spleen after systemic administration. In particular, the formulations described herein enable to induce an immune response after systemic administration of antigen-coding RNA.