A nutraceutical composition comprising prebiotics, probiotics, and/or synbiotics, spirulina, cereals and micronutrients for improving a person's health, and methods for boosting the immune system and improving vaccine effectiveness in vulnerable populations with the nutraceutical composition, including undernourished children, lactating and pregnant mothers in LDCs, the elderly, and persons with cancer or at risk of developing cancer.

The present disclosure provides methods of using a tumor-independent antigen in immunotherapies. The present disclosure provides methods of using a tumor-independent antigen in adoptive cell therapy.

Embodiments of a novel platform for delivering a peptide antigen to a subject to induce an immune response to the peptide antigen are provided. For example, nanoparticle polyplexes are provided that comprise a polymer linked to a peptide conjugate by an electrostatic interaction. The conjugate comprises a peptide antigen linked to a peptide tag through an optional linker. An adjuvant may be included in the nanoparticle polyplex, linked to either the polymer or the conjugate, or admixed with the nanoparticles. The nanoparticle polyplex can be administered to a subject to induce an immune response to the peptide antigen.

The present invention relates to methods and compositions for the treatment of a solid tumor by administering compositions comprising nanoparticles that comprise an mTOR inhibitor (such as a limus drug, e.g., sirolimus or a derivative thereof) and an albumin in combination with compositions comprising a second therapeutic agent.

The present invention discloses a live attenuated strain of Zika virus (ZIKV) having a deletion in the 3′ untranslated region (3′UTR) of the viral genome, which may affect viral RNA synthesis and sensitivity to type I interferon inhibition, but may not affect viral RNA translation. The present invention also discloses the use of these live attenuated ZIKV strains in the preparation of ZIKV vaccines and for providing immunoprotection against ZIKV infection and congenital ZIKV syndrome, particularly in pregnant females.

An immunogenic composition comprising at least one Norovirus antigen and at least one adjuvant which is at least one B subunit of an AB.sub.5 toxin such as cholera toxin subunit B (CTB) or the B subunit of heat-labile E. coli exotoxin LT (LTB).

Compositions and methods are provided that enable activation of innate immune responses through RIG-I like receptor signaling. The compositions and methods incorporate synthetic nucleic acid pathogen associated molecular patterns (PAMPs) that comprise elements initially characterized in, and derived from, the hepatitis C virus genome.

Provided herein are methods and compositions related to membrane preparations (MPs) useful as therapeutic agents.

This invention reveals the pharmaceutical composition that includes the surface antigen (HBsAg) of the hepatitis B virus (HBV) and the antigen of the nucleocapsid (or core, HBcAg) of the same virus. The HBcAg of this composition contains messenger ribonucleic acid (mRNA) at a proportion of over 45% of the total amount of ribonucleic acid (RNA) in this antigen. Because of the changes in the constitution of the antigens forming it, the composition of the invention is useful for the prevention or treatment of chronic hepatitis B. It also covers the use of this pharmaceutical composition in the production of a drug for immuno-prophylaxis or immunotherapy against HBV infection, and its use to increase the immune response against an additional antigen that is co-administered with the mixture of these antigens.

Immune-based approaches to treat and prevent skin cancer by boosting T cell immunity against commensal HPVs present on skin. Thus, provided herein are compositions comprising: (i) a plurality of antigenic peptides each comprising a sequence of 9-30 amino acids derived from proteins from commensal human papilloma viruses, (ii) a plurality of live or live attenuated commensal human papilloma viruses, (iii) a plurality of antigenic proteins from commensal human papilloma viruses, preferably in virus-like particles, and/or (iv) a plurality of nucleic acids encoding (a) a plurality of antigenic peptides, each comprising a sequence of 9-30 amino acids derived from proteins from commensal human papilloma viruses or (b) a plurality of antigenic proteins from commensal human papilloma viruses; and optionally a T cell adjuvant that increases T cell response to the antigenic peptides.