Provided is an M2-LVP-K1 virus including a colorectal cancer cell-specific mutant sialic acid binding domain and a composition for treating colorectal cancer including the same. The mutant sialic acid binding domain is constructed using directed evolution technology, and is a recombinant Newcastle disease virus constructed by substituting a normal sialic acid binding domain for a HN protein, a cell-binding receptor, to improve the specific infectivity to HCT116 cells. It was identified that M2-LVP-K1 recombinant Newcastle disease virus with improved colorectal cancer cell-specific infectivity has improved HCT116 cell death effect compared to the conventional normal recombinant Newcastle disease virus, and produces an excellent effect in inhibiting cancer tissue growth through in vivo experiments. The mutant recombinant Newcastle disease virus presented in this study relates to a therapeutic viral agent capable of inducing clinical symptom reduction, partial remission, or complete remission through colorectal cancer cell death or colorectal cancer tissue shrinkage.

Provided are compositions and methods for vaccinating against picornaviruses. The compositions include modified Newcastle Disease viruses (NDVs) that are sufficient to produce virus-like particles (VLPs) in a host recipient. The modified NDVs contain a single stranded negative sense RNA polynucleotide having nucleotide sequences configured in a 3-5 direction encoding sequentially NDV nucleocapsid protein (NP), phosphoprotein (P), matrix protein (M), fusion protein (F), hemagglutinin-neuraminidase (HN) and RNA-dependent RNA polymerase (L) protein. A first nucleotide sequence encoding a picornavirus capsid polyprotein precursor is positioned between the between P and M nucleotide sequences. A second nucleotide sequence encoding a picornavirus protease that is capable of processing the capsid polyprotein precursor is positioned between the HN and L nucleotide sequences. Purified, infectious non-pathogenic NDV particles are included, as are methods for using such particles for vaccination against any infectious picornavirus. Kits and articles of manufacture containing and/or for making the NDV particles are also provided.

The invention provides methods for using virus-like particle (VLP) vaccines containing a stabilized pre-fusion respiratory syncytial virus (RSV) F protein to stimulate RSV neutralizing antibodies in pre-immune subjects. In one embodiment, the invention provides a method for immunizing a mammalian subject in need of immunizing against Respiratory Syncytial virus (RSV) infection, comprising, a) providing i) a pre-immune mammalian subject containing RSV neutralizing antibodies, ii) a first composition comprising recombinant chimeric Newcastle disease virus-like particles (ND VLPs), that contain a chimeric protein comprising, in operable combination, 1) stabilized pre-fusion RSV F protein ectodomain, 2) transmembrane (TM) domain of NDV F protein, and 3) cytoplasmic (CT) domain of NDV F protein, and b) administering an immunologically effective amount of the first composition to the pre-immune subject to produce an immunized subject that comprises an increase in the level of the RSV neutralizing antibodies compared to the level of RSV neutralizing antibodies in the pre-immune subject. In one embodiment, the level of the RSV neutralizing antibodies in the pre-immune subject does not prevent RSV infection of the pre-immune subject.

The disclosure relates to an extended-range spray applicator, and methods of making and use thereof, for dosing vaccines and/or probiotics to avian animals at a distance.

The present invention provides a recombinant chicken interleukin-1 protein for producing antibody early and retaining for a longer period of time, which has a sequence of SEQ ID NO:2 or SEQ ID NO:3. The recombinant chicken interleukin-1 protein is created by using point mutation in a genetic engineering method; it can significantly improve the original vaccine efficacy to enhance antibody responses, produce antibody one week earlier and extend the protective effect until chickens sold off. Therefore, the recombinant chicken interleukin-1 protein of the present invention can produce significant higher antibody responses than the with-type chicken interleukin-1 protein, it helps to develop avian interleukin-1 vaccine adjuvant and uses in medical application and livestock production.

The present inaveation relates to prophylactic and/or therapeutic vaccines thatpoatairj Newcastle disease Virus (NDV) virus-like particles (VLPs) comprising one or more Epstein-Barr Virus (EBV) antigens, in one embodiment, the invention provides a recombinant virus-like particle (V'UP) comprising, i is operable combination, a) Newcastle disease virus iNDVj matrix (M) protein, and b) one or more Epstein-Barr Virus (BBV) antigens. The im'eniion's prophylactic and/or therapeutic vacclrses are useful for preventing asc/or treatmg, infection with EBY aixi/or disease associated Epstein-Barr Virus, such as cancer.

The present invention provides chimeric negative-stand RNA viruses that allow a subject, e.g., an avian, to be immunized against two infectious agents by using a single chimeric virus of the invention. In particular, the present invention provides chimeric influenza viruses engineered to express and incorporate into their virions a fusion protein comprising an ectodomain of a protein of an infectious agent and the transmembrane and cytoplasmic domain of an influenza virus protein. Such chimeric viruses induce an immune response against influenza virus and the infectious agent. The present invention also provides chimeric Newcastle Disease viruses (NDV) engineered to express and incorporate into their virions a fusion protein comprising the ectodomain of a protein of an infectious agent and the transmembrane and cytoplasmic domain of an NDV protein. Such chimeric viruses induce an immune response against NDV and the infectious agent.

The present invention regards a new and Improved HVT-vectored ND-IBD vaccine, comprising a recombinant HVT comprising the VP2 gene from IBDV and the F gene from NDV to a target animal. The recombinant HVT can be used in a vaccine for poultry, which displayed good viral vector replication, effective expression of the NDV F- and IBDV VP2 genes, improved immunoprotection against ND and IBD, and improved genetic stability over prior art constructs.

The disclosure relates to an extended-range spray applicator, and methods of making and use thereof, for dosing vaccines and/or probiotics to avian animals at a distance.

An altered avian NDV that contains the coding sequence of avian interleukin-4 (IL-4), or a portion thereof, in the reverse orientation suppresses in-ovo IL-4 production via RNAi when administered to embryonic birds. An immunogenic composition containing this altered NDV is included in this invention. The altered avian NDV can, optionally contain a polynucleotide encoding a heterologous antigen from a heterologous avian pathogen and can produce said heterologous antigen in-ovo.