The invention concerns a baculovirus expression vector for recombinantly expressing an FMDV capsid precursor protein under control of a promoter, the expression vector comprising a nucleic acid sequence encoding the FMDV capsid precursor protein and the translational enhancers Syn2 land p10UTR. The invention further relates to a host cell comprising the baculovirus expression vector, a method of producing FMDV virus-like particles (VLPs), and a method of producing a vaccine.

The present invention relates to a pharmaceutical combination for inducing one or more immune responses and/or for enhancing effectiveness of vaccination in the host, which is capable of inducing cross-protection against multiples strains and/or serotypes of a virus. In one embodiment, the pharmaceutical combination is able to generate protection in food producing animals, such as cattle, sheep, goats, swine and other cloven-hoofed animals with fewer vaccination campaigns. This universal vaccine comprises an inactivated virus with one or more of the following components: polynucleotides encoding viral peptides, polypeptides or proteins in different types of plasmids; viral peptides, polypeptides and proteins; synthetic viral peptides and polypeptides; recombinant viral peptides, polypeptides and proteins; virus-like-particles; virus-like-particles derived from other viruses; proteins used as a carrier or as molecular adjuvant fused to peptides, polypeptides and/or proteins derived from viruses; adjuvants; emulsifiers, molecular adjuvants and carrier systems.

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.

The present invention relates to immunogenic compositions and combinations thereof which may find use in immunisation regimens for the treatment of chronic hepatitis B. An immunogenic composition comprises a replication-defective chimpanzee adenoviral (ChAd) vector comprising polynucleotides encoding HBs, HBc human invariant chain (hIi) fused to the HBc. Another immunogenic composition comprises a Modified Vaccinia Virus Ankara (MVA) vector comprising polynucleotides encoding HBs and HBc. Another immunogenic composition comprises recombinant HBs, C-terminal truncated recombinant HBc and an adjuvant containing MPL and QS-21.

The present application relates to a method for preparing a foot-and-mouth disease (FMD) vaccine, comprising the following steps: (i) obtaining cell culture media containing FMD virus; (ii) separating and purifying the cell culture media containing FMD virus by an integrated filtration system with two membranes in combination; and (iii) collecting the concentrated solution containing FMD virus obtained in step (ii). The present application also relates to an FMD vaccine prepared by the method described herein and use thereof in the manufacture of a medicament for preventing animal FMD. The present application further relates to an apparatus for preparing an FMD vaccine, which comprises an integrated filtration system with two membranes in combination.

Polynucleotide constructs that express an engineered foot-and-mouth disease (FMDV) P1 precursor protein and a non-FMDV TEV protease and methods for safe and efficient recombinant production of FMDV antigens and immunogens. Recombinant production of FMDV antigens avoids the need to culture highly-infectious FMDV, while conventional culture methods for producing FMDV antigens rely on the native FMDV 3C protease which exerts toxic effects on host cells. The inventors have developed a new system that efficiently and safely processes FMDV P1 precursor without the FMDV 3C protease, thus avoiding the toxic effects associated with use of the 3C protease. The invention is also directed to the FMDV antigens and virus-like particles produced by this system as well as to FMDV vaccines, diagnostics and other biologics.

The present invention relates to a pharmaceutical combination for inducing one or more immune responses and/or for enhancing effectiveness of vaccination in the host, which is capable of inducing cross-protection against multiples strains and/or serotypes of a virus. In one embodiment, the pharmaceutical combination is able to generate protection in food producing animals, such as cattle, sheep, goats, swine and other cloven-hoofed animals with fewer vaccination campaigns. This universal vaccine comprises an inactivated virus with one or more of the following components: polynucleotides encoding viral peptides, polypeptides or proteins in different types of plasmids; viral peptides, polypeptides and proteins; synthetic viral peptides and polypeptides; recombinant viral peptides, polypeptides and proteins; virus-like-particles; virus-like-particles derived from other viruses; proteins used as a carrier or as molecular adjuvant fused to peptides, polypeptides and/or proteins derived from viruses; adjuvants; emulsifiers, molecular adjuvants and carrier systems.

A temperature-sensitive attenuated FMDV strain, construction method and applications thereof. The construction method of the temperature-sensitive attenuated FMDV strain is as follows. Mutating a cytosine on K region loop of IRES domain 4 of an FMDV genome to a guanine or an adenine to obtain the temperature-sensitive attenuated FMDV strain, or replacing a K region of IRES domain 4 of an FMDV genome with a K region of IRES domain 4 of a bovine rhinovirus genome to obtain the temperature-sensitive attenuated FMDV strain.

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.

The present invention relates to the preparation of the compound immunopotentiator and the application thereof in a foot-and-mouth disease vaccine of pigs. According to the present invention, the foot-and-mouth disease vaccine of pigs is taken as a research subject, and on this basis, several immunopotentiators having obvious immunopotentiating effects are selected for the compound immunopotentiator, and an antigen/vaccine is mixed with the immunopotentiator to prepare a vaccine-immunized pig. An animal experiment result shows that the present invention has obvious immunopotentiating effects. After immunizing the vaccine containing the compound immunopotentiator, a window period for antibody production can be significantly shortened to 7 days; a LPB-ELISA antibody titer is significantly improved, and an antibody pass rate is significantly increased; an immune protection period is also significantly extended, at least up to 7 months.