We have developed a series of Ebola vims envelope glycoprotein (EboGP)-based chimeric fusion proteins that are still able to maintain an efficient EboGP-mediated virus entry in various cell types including human antigen-presenting cells (APCs) while presenting large viral polypeptides, such as HIV Env v3-v5 domain (as large as 241 aa), at the apex and the sides of each EboGP monomer to elicit robust host immune responses. This invention demonstrates the feasibility of an EboGP-based chimeric fusion technology as a novel vaccine approach against different microbial pathogens, including that in human and animals, and against cancers.

Disclosed are recombinant bacteriophage constructs and related exogenous peptide sequences for generating immune responses against CD47. The disclosed recombinant phage constructs bind to antibodies against CD47 and can be administered to an animal to generate an immune response against CD47, including generating anti-CD47 antibodies. The disclosed recombinant phage may comprise an amino acid sequence of CD47, epitopic fragments, variants, or functional mimics thereof. Also disclosed are methods for making and selecting such recombinant phage constructs and compositions that comprise such constructs (e.g., compositions for inducing an immune response against CD47 including pharmaceutical or veterinary compositions used as vaccines). Also disclosed are recombinant polynucleotides comprising genomic nucleic acid of the recombinant phage constructs disclosed herein.

An anti-cancer virus composition including an icosahedral-shaped plant virus or virus-like particle linked to a HER2 antigen is described. The anti-cancer virus composition can be used for methods of treating or decreasing the risk of developing a HER2-expressing cancer in a subject by administering to a subject in need thereof an effective amount of the anti-cancer virus composition.

The disclosure relates to vaccination compositions, for example, against human papillomavirus, Zika virus, and flu virus. The disclosure also relates to vectors for producing the virus-like particles and immune complex platforms of the vaccination compositions.

The present invention relates to compositions, immunogenic or vaccine compositions and pharmaceutical compositions for the prevention or treatment of urticaria of equine mammals, preferably of horses. Furthermore, the invention provides methods for preventing or treating urticaria of equine mammals, preferably of horses.

Disclosed are virus-inspired compositions and preparation methods thereof, where the compositions comprise mutant papillomavirus L1 proteins that spontaneously form capsid backbones and that are conjugated to a peptide comprising an epitope to form immune redirector capsids (IRCs). The epitopes on the peptides are designed to be recognized by a subject's immune system based on the subject's preexisting immune memory developed from the subject's past exposure to the epitope through infection or vaccination. The mutant papillomavirus L1 proteins possess three mutations including an amino-terminal truncation, a carboxy-terminal truncation, and a truncation at helix four. These mutations in the L1 protein yield capsomeres that are form non-canonical T=1 geometry capsid backbones. Disclosed are uses and methods of using the compositions in treating and/or preventing cancers in subjects in need thereof.

The present invention relates to compositions, immunogenic or vaccine compositions and pharmaceutical compositions for the prevention or treatment of peanut allergy in humans. Furthermore, the invention provides methods for preventing or treating of peanut allergy in humans.

Disclosed herein are methods of forming compounds and exemplary compounds in the nature of a conjugated compound, which in some embodiments comprises an antigen and virus particle mixed in a conjugation reaction to form a conjugate mixture, such that the conditions and steps of forming these products allow for use of the conjugate mixture as a vaccine, including but not limited to use as a vaccine against various pathogens including for treatment of diseases caused by novel coronaviruses (including SARS-COV 2).

Provided herein are HER-3, HER-1 and IGF-1R B cell epitopes, peptide mimics, chimeric peptides and multivalent peptides. In some embodiments, the chimeric peptides include one or more HER-3, HER-1 and/or IGF-1R B cell epitopes, a linker, and a T helper cell (Th cell) epitope. Pharmaceutical compositions are also provided that contain one or more HER-3, HER-1 and/or IGF-1R chimeric peptides, and optionally, one or more HER-2 chimeric peptides and/or VEGF peptides. Also included herein are methods of treating a cancer using the HER-3, HER-1 and IGF-1R B cell epitopes, chimeric peptides and multivalent peptides.

The present invention provides redesigned soluble coronavirus S protein derived immunogens that are stabilized via specific modifications in the wildtype soluble S sequences. Also provided in the invention are nanoparticle vaccines that contain the redesigned soluble S immunogens displayed on self-assembling nanoparticles. Polynucleotide sequences encoding the redesigned immunogens and the nanoparticle vaccines are also provided in the invention. The invention further provides methods of using the vaccine compositions in various therapeutic applications, e.g., for preventing or treating coronaviral infections.