Disclosed are peptides comprising a monomeric Fc fragment of an immunoglobulin recognized by a neonatal receptor (FcRn); an influenza HA protein; and a trimerization domain. Disclosed are compositions comprising one or more of the peptides described herein. Disclosed are nucleic acid sequences capable of encoding any one of the peptides described herein. Disclosed are methods for eliciting a protective immune response against influenza comprising administering to a subject an effective amount of a composition comprising a monomeric Fc fragment of an immunoglobulin recognized by a FcRn; an influenza HA protein; and a trimerization domain, wherein the administering is to a mucosal epithelium. Disclosed are methods of treating a subject exposed to influenza or at risk of being exposed to influenza comprising administering to the subject an effective amount of a composition comprising a monomeric Fc fragment of an immunoglobulin recognized by a FcRn; an influenza HA protein; and a trimerization domain, wherein the administering is to a mucosal epithelium.

The present invention relates to artificial antigen presenting cell (aAPC) scaffolds to provide cells with specific functional stimulation to obtain phenotypic and functional properties ideal to mediate tumor regression or viral clearance. In particular, the scaffolds of the present invention comprise antigens, such as peptide-MHC (pMHC) class I molecules, and specific combinations of cytokines and co-stimulatory molecules to allow effective expansion and functional stimulation of specific T cells.

Provided herein are influenza hemagglutinin stem domain polypeptides, compositions comprising the same, vaccines comprising the same and methods of their use.

The present invention is intended to provide an adjuvant having high safety to living bodies and an action to sufficiently reinforce immune function, and a vaccine comprising the adjuvant. Specifically, the present invention relates to 34 novel adjuvant candidate compounds, which have been identified by screening 145 food additives and 51 injection additives, using, as indicators, an increase in the antibody titer against influenza virus and a protective effect against infection with influenza virus, and then selecting those having the function of increasing the antiviral antibody titer in blood and the protective effect against viral infection. In addition, the present invention also relates to a vaccine comprising these adjuvant candidate compounds.

This invention provides highly attenuated influenza viruses and vaccines. The attenuated viruses and vaccines proliferate well and have high safety factors. The attenuated viruses providing protective immunity from challenge by virus of the same subtype, as well as cross protection against heterologous viruses.

Described herein are influenza virus-like particles (VLPs) that display on truncated, re-engineered or remodeled HA molecules on their surface. Also described are methods of making and using these VLPs.

Improved methods for the manufacture of pharmaceutical compositions comprising at least one surfactant, involving prefiltration of the surfactant prior to formulation into final products.

The present invention relates to a mutated virus. Said virus can be an influenza virus of human or other animal origin. The present invention also relates to a method for preparing the mutated virus, the method comprising introducing UAG codons into positions upstream of the stop codons per se of one or more genes of a viral genome by reverse genetic techniques. The present invention further relates to uses of the mutated virus, for example, as a live attenuated vaccine, or in replication of controllable and safe virus models, and the like.

The present invention provides a vector engineered virus designed to favor and infect cancers and their surrounding cells. This technique mitigates cancer's ability to evade the body's immune system by calling attention to the cells that are cancerous beginning with their earliest stage of development by infecting those cells with a vector engineered virus specifically designed to target tumors in formation. This invention teaches a system and method for identifying, tagging, targeting, and destroying cancer cells while preserving healthy tissue. Developing cancers have two primary traits/biomarkers in common; one being a higher than normal heat signature from elevated metabolic activity; with the second being an acidic or lower than normal pH factor resulting from the hypoxic micro environment resulting from the depletion of available oxygen. Simply stated, all or most cancers cancers have a heat signature greater than that of normal healthy cells and a pH factor lower than seen around normal healthy cells.

The present invention describes a recombinant herpesvirus of turkeys (rHVT) that can be used as a vector vaccine for poultry against infection and disease from multiple poultry pathogens. Specifically the rHVT expresses an infectious bursal disease virus (IBDV) viral protein 2 (VP2) gene and a Newcastle disease virus (NDV) fusion (F) protein gene from a first and a second expression cassette inserted in the unique small (Us) region, and expresses an avian influenza vims (AIV) haemagglutinin (HA) gene from a third expression cassette inserted in the unique long (UL) region of the genome of said rHVT either between the UL40 and UL41 genes, or between the UL44 and UL45 genes. This rHVT can be used to vaccinate poultry against MDV, IBDV, NDV and AIV.