Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

The present disclosure relates to methods for inactivating a Zika virus which can be used in vaccines and immunogenic compositions. The present disclosure also relates to a method for determining the completeness of inactivation of an arbovirus preparation.

The present application relates to a pharmaceutical composition comprising polynucleotides and use thereof for prevention or treatment of COVID-19. More specifically, disclosed in the present application is a composition used for prevention or treatment of COVID-19, comprising a polyriboinosinic-polyribocytidylic acid, an antibiotic or polyamino compound, a positive ion, and an optional antigen derived from novel coronavirus SARS-CoV-2. Also provided is use of the composition in preparation of a drug or vaccine for prevention or treatment of novel coronavirus SARS-CoV-2.

The present invention includes a vaccine comprising a SARS-CoV-2 spike protein (S) or portion thereof, and methods of use thereof.

This invention is directed to a product for use in avian subjects comprising a combination of in ovo vaccine and probiotic, and related methods.

The present disclosure is directed towards chimeric glycoproteins wherein the clip region, a core region, a flap region, and a transmembrane and cytoplasmic domain are defined by starting from the amino terminus of the protein, these domains are comprised of the following amino acid residue ranges: clip, 1 through 40 to 60; core, 40 to 60 through 249 to 281; flap, 249 to 281 through 419 to 459; the transmembrane domain is comprised of amino acids 460 through 480, and the remaining amino acids 481 through 525 comprise the cytoplasmic domain; and wherein the clip, core, flap, transmembrane, and cytoplasmic domain comprise a chimeric combination of at least two lyssavirus, wherein the chimeric glycoprotein is advantageously inserted into a rabies-based vaccine vector.

The present disclosure relates to immunogenic compositions comprising tetanus, diphtheria, and acellular pertussis (Tdap) antigens, and a toll-like receptor 9 (TLR9) agonist, such as oligonucleotide comprising an unmethylated cytidine-phospho-guanosine (CpG) motif. The immunogenic compositions may further comprise an aluminum salt adjuvant to which the Tdap antigens are adsorbed. The immunogenic compositions are suitable for active booster immunization against tetanus, diphtheria, and pertussis in an individual in need thereof.

The invention is directed to a vaccine comprising: i) coxsackie B virus CBV1 and CBV2, and ii) at least one coxsackie B virus selected from CBV3, CBV4, CBV5 and CBV6. The CBVs are present in the vaccine in inactivated form, in the form of a component of the virus or as an antibody against the virus. The vaccine is effective in preventing and treating type 1 diabetes. So is an anti-coxsackie B virus composition provided.

Engineered Influenza polynucleotides, viruses, vaccines, and methods of making and using the same are provided. More specifically, the present inventors have developed replication competent engineered influenza viruses having, for example, a modified segment 4 and/or segment 6 that include at least one additional polynucleotide encoding a heterologous polypeptide.

Provided are surprisingly effective methods for inactivating pathogens, and for producing highly immunogenic vaccine compositions containing an inactivated pathogen rendered noninfectious by exposure to a Fenton reagent, or by exposure to a Fenton reagent or a component thereof in combination with a methisazone reagent selected from the group consisting of methisazone, methisazone analogs, functional group(s)/substructure(s) of methisazone, and combinations thereof. The methods efficiently inactivate pathogens, while substantially retaining pathogen antigenicity and/or immunogenicity, and are suitable for inactivating pathogens, or for the preparation of vaccines for a wide variety of pathogens with genomes comprising RNA or DNA, including viruses and bacteria. Also provided are highly immunogenic inactivated vaccine compositions prepared by using any of the disclosed methods, and methods for eliciting an immune response in a subject by administering such vaccine compositions.