The present invention provides EV71 virus-like particles and a preparation method and application thereof. The method comprises: connecting a P1 protein gene and a 3CD protease gene of an EV71 virus with a PMV plasmid to construct a PMV-P1-3CD recombinant expression plasmid; then transforming a Hansenula polymorpha AU-0501 expression strain with the PMV-P1-3CD recombinant expression plasmid to obtain an AU-PMV-P1-3CD recombinant expression strain; fermenting and culturing the recombinant expression strain, and inducing the recombinant expression strain to express the EV71 virus-like particle protein with methanol; centrifuging and collecting mycelia for homogeneous breakage at a high pressure; and purifying the supernatant through ion-exchange chromatography, hydrophobic chromatography, and molecular sieve chromatography, so as to obtain EV71 virus-like particles.

The present invention provides a Hansenula engineering fungus that efficiently expresses CA10 virus-like particles and use thereof. The engineering fungus comprises a recombinant vector carrying P1 and 3CD genes of the CA10 virus, and the starting strain of the engineering fungus is uracil auxotroph. The Hansenula AU-0501, P1 and 3CD genes are optimized according to preferred codons of Hansenula. The present invention also provides a preparation method of CA10 virus-like particles, comprising: culturing engineering fungi, expressing CA10 virus-like particles, and separating and purifying virus-like particles by ultrafiltration and three-step chromatography. The CA10 virus-like particles provided by the present invention and the vaccine prepared therefrom have good immunogenicity, safety and biological activity, the process is simple, the chromatography method is adopted for purification, and large-scale preparation and purification can be realized to obtain a VLP protein stock solution with high purity (greater than 99%), which can be used to prepare a vaccine to prevent CA10 infection, with good economic value and application prospects.

The instant invention provides materials and methods for producing immunologically active antigens derived from members of the Picornaviridae virus family. The picornavirus antigens of the invention may be in a form for use as a vaccine administered to a subject in a therapeutic treatment or for the prevention of a picornavirus infection. The picornavirus antigens of the invention may be in the form of an immunogenic composition for use in vaccines which are administered for the prevention of an Enterovirus infection. The instant invention further encompasses immunogenic compositions comprising Human enterovirus A, Human enterovirus B, Human enterovirus C, Human enterovirus D antigens and their use in vaccines for the prevention of an Enterovirus infection.

The instant invention provides materials and methods for producing immunologically active antigens derived from members of the Picornaviridae virus family. The picornavirus antigens of the invention may be in a form for use as a vaccine administered to a subject in a therapeutic treatment or for the prevention of a picornavirus infection. The picornavirus antigens of the invention may be in the form of an immunogenic composition for use in vaccines which are administered for the prevention of an Enterovirus infection. The instant invention further encompasses immunogenic compositions comprising Human enterovirus A, Human enterovirus B, Human enterovirus C, Human enterovirus D antigens and their use in vaccines for the prevention of an Enterovirus infection.

The invention provides chimeric Enterovirus virus-like particles (VLPs) for protection and/or treatment against infection by more than one Enterovirus. More specifically, the present invention provides chimeric EV-A71 virus-like particles displaying CV-A16 VP1 polypeptides and at the same time maintaining important neutralizing antibody epitopes of EV-A71 itself. More specifically, the present invention provides chimeric CV-A16 virus-like particles displaying EV-A71 VP1 polypeptides. Thus, the present invention provides a bivalent vaccine comprising the chimeric virus-like particles which elicit an immune response and/or neutralizing antibody response to both EV-A71 and CVA-16 for the treatment of Hand, Foot and Mouth Disease.

A method of producing a picornavirus-like particle (PVLP) in a plant is provided. The method comprises introducing a first nucleic acid and a second nucleic acid into the plant, portion of the plant, or a plant cell. The first nucleic acid comprising a first regulatory region active in the plant operatively linked to a nucleotide sequence encoding a polyprotein. The second nucleic acid comprises a second regulatory region active in the plant and operatively linked to a nucleotide sequence encoding one or more protease. The plant, portion of the plant, or plant cell is incubated under conditions that permit the expression of the nucleic acids, thereby producing the PVLP. A PVLP comprising the polyprotein is also provided.

The instant invention provides materials and methods for producing immunologically active antigens derived from members of the Picornaviridae virus family. The picornavirus antigens of the invention may be in a form for use as a vaccine administered to a subject in a therapeutic treatment or for the prevention of a picornavirus infection. The picornavirus antigens of the invention may be in the form of an immunogenic composition for use in vaccines which are administered for the prevention of an Enterovirus infection. The instant invention further encompasses immunogenic compositions comprising Human enterovirus A, Human enterovirus B, Human enterovirus C, Human enterovirus D antigens and their use in vaccines for the prevention of an Enterovirus infection.

The instant invention provides materials and methods for producing immunologically active antigens derived from members of the Picornaviridae virus family. The picornavirus antigens of the invention may be in a form for use as a vaccine administered to a subject in a therapeutic treatment or for the prevention of a picornavirus infection. The picornavirus antigens of the invention may be in the form of an immunogenic composition for use in vaccines which are administered for the prevention of an Enterovirus infection. The instant invention further encompasses immunogenic compositions comprising Human enterovirus A, Human enterovirus B, Human enterovirus C, Human enterovirus D antigens and their use in vaccines for the prevention of an Enterovirus infection.

The instant invention provides materials and methods for producing immunologically active antigens derived from members of the Picornaviridae virus family. The picornavirus antigens of the invention may be in a form for use as a vaccine administered to a subject in a therapeutic treatment or for the prevention of a picornavirus infection. The picornavirus antigens of the invention may be in the form of an immunogenic composition for use in vaccines which are administered for the prevention of an Enterovirus infection. The instant invention further encompasses immunogenic compositions comprising Human enterovirus A, Human Enterovirus B, Human enterovirus C, Human Enterovirus D antigens and their use in vaccines for the prevention of an enterovirus infection.

The present invention relates to a recombinant adenoviral vector for generating immunity against enterovirus infection. In one embodiment, the recombinant adenoviral vector of the invention comprises an expression cassette encoding a PI protein and a 3 CD protease of an enterovirus. In another embodiment, the recombinant adenoviral vector of the invention comprises an expression cassette encoding a 3C protease or a 3CD protease of an enterovirus. The present invention also relates to a vaccine composition comprising the recombinant adenoviral vector as described. A method of inducing an immune response in a subject against enterovirus infection using the recombinant adenoviral vector and the vaccine composition is provided. Further provided is a method for producing virus like particles of an enterovirus by expressing the adenoviral vector as described herein in mammalian cells.