The present disclosure describes deoptimized foot and mouth viruses and their use for prophylactic and therapeutic treatment of mammalian subjects. The recombinant viruses provided herein include alterations in several genomic regions as well as Differentiating Infected from Vaccinated Animals (DIVA) markers.

Genetically engineered Foot and Mouth Disease Virus (FMDV) and related engineered proteins and polynucleotides, nanolipoprotein particles, compositions, methods and systems are described. The genetically engineered FMDV is modified by the strategic insertion of a protein tag into select regions of the FMDV genome which encode viral proteins that are exposed on the surface of the FMDV viral capsid. The inserted protein tag is displayed as a decoration or attachment on the viral capsid surface.

Synthetic alphavirus-derived replicon expression systems comprising nucleic acid sequences encoding at least one modified nonstructural protein, and synthetic nucleic acid sequences encoding at least one heterologous protein are described. Methods of producing at least one heterologous protein in a cell, or of inducing an immune response in a subject by administering and/or expressing the synthetic alphavirus-derived replicon expression systems are provided.

Compositions for prevention of Foot and Mouth Disease (FMD) are provided, comprising an antigen component in the amount equivalent to 0.5-20 μg FMD virus and an adjuvant component comprising oil, an immunostimulatory oligonucleotide, and a polycationic carrier. Methods of using the composition, as well as the methods of reducing FMD persistence are also provided.

Conserved epitopes selected from EV71 and CVA16, the two major causative agents of Hand Foot and Mouth Disease has been used to develop sub-unit bivalent vaccine antigen construct. The said vaccine described in this invention is capable to provide cross-protection to diverse EV71 and CVA16 infection causing strains. Further disclosed are the expression of the multi-epitope vaccine antigen coding gene and the purification process involved thereof. This present invention also discloses vaccine formulations against Hand Foot and Mouth Disease and other enterovirus infections comprising the recombinant vaccine antigen construct of the present invention.

The present disclosure provides a type O foot-and-mouth disease virus-like particle antigen, wherein the type O foot-and-mouth disease virus-like particle antigen is type O CATHAY type foot-and-mouth disease virus-like particle antigen, and the type O CATHAY type foot-and-mouth disease virus-like particle antigen is assembled by VP0, VP3 and VP1 antigen proteins of type O CATHAY type foot-and-mouth disease virus. The type O foot-and-mouth disease virus-like particle antigen of the present disclosure has good immunogenicity. The prepared vaccine can produce complete protection against the O-type foot-and-mouth disease virus on the 14th day after immunization. The antibody titer produced is higher than that of the commercial inactivated vaccine, and the duration of immune protection can be maintained for at least 133 days. The disclosure also relates to the prepared vaccine composition, preparation method and use thereof.

Provided herein is a nucleic acid comprising consensus amino acid sequence of foot-and-mouth disease FMDV VP1-4 coat proteins of FMDV subtypes A, Asia 1, C, O, SAT1, SAT2, and SAT3 as well as plasmids and vaccines expressing the sequences. Also provided herein is methods for generating an immune response against one or more FMDV subtypes using the vaccine as described above as well as methods for deciphering between vaccinated mammals with the vaccine and those that are infected with FMDV.

The present invention relates to modified poxviral vectors and to methods of making and using the same. In particular, the invention relates to recombinant modified vaccinia virus Ankara-based (MVA-based) vaccine against FMDV infection and to related products, methods and uses. Specifically, the present invention relates to genetically engineered (recombinant) MVA vectors comprising at least one heterologous nucleotide sequence encoding an antigenic determinant of a FMDV protein. The invention also relates to products, methods and uses thereof, e.g., suitable to induce a protective immune response in a subject.

The present invention relates to the stabilisation of foot-and-mouth disease virus (FMDV) capsids, by specific substitution of amino acids in a specific region of FMDV VP2. The invention provides stabilised FMDV capsids and vaccines against FMD.

Conserved epitopes selected from EV71 and CVA16, the two major causative agents of Hand Foot and Mouth Disease has been used to develop sub-unit bivalent vaccine antigen construct. The said vaccine described in this invention is capable to provide cross-protection to diverse EV71 and CVA16 infection causing strains. Further disclosed are the expression of the multi-epitope vaccine antigen coding gene and the purification process involved thereof. This present invention also discloses vaccine formulations against Hand Foot and Mouth Disease and other enterovirus infections comprising the recombinant vaccine antigen construct of the present invention.