The present disclosure relates to a method for inducing humoral immunity in a human or animal, that includes administering to the human or animal a mucosal vaccine composition to a mucous membrane selected from the group consisting of a human or animal intraoral mucous membrane, ocular mucous membrane, ear mucous membrane, genital mucous membrane, pharyngeal mucous membrane, respiratory tract mucous membrane, bronchial mucous membrane, pulmonary mucous membrane, gastric mucous membrane, enteric mucous membrane, and rectal mucous membrane. The mucosal vaccine composition includes at least one antigen derived from a pathogen; and as an adjuvant, a lipopolysaccharide derived from at least one gram-negative bacterium selected from the group consisting of Pantoea, Acetobacter, Zymomonas, and Xanthomonas, or a salt of the lipopolysaccharide, wherein the mass ratio between a total mass of the adjuvant and a total mass of the antigen is 0.002 to 500. The mucosal vaccine composition is administered in an amount effective to induce humoral immunity in the human or animal.

The invention provides compositions comprising bacterial strains for treating and preventing inflammatory and autoimmune diseases.

The present invention relates to the field of native outer membrane vesicles (nOMVs), particularly nOMVs having increased levels of lipoproteins on their surface and use of same in immunogenic compositions.

The present invention aims to provide a composition for promoting humoral immunity induction and a vaccine pharmaceutical composition that can be universally used for various antigens in inducing humoral immunity to antigens, contain a Th2 reaction promoter, and exerts a high humoral immunity inducing effect. The present invention relates to a vaccine pharmaceutical composition containing an antigen for humoral immunity induction and at least one Th2 reaction promoter.

The application is directed to in vitro-reared Plasmodium sporozoites of human host range wherein sporogony from gametocyte stage to sporozoite stage is external to mosquitoes, and methods of producing the same. Provided herein are in vitro-reared infectious Plasmodium sporozoites (SPZ) of human host range, particularly P. falciparum, P. vivax, P. ovale, P. malariae, and P. knowlesi, wherein sporogony from gametocyte stage to sporozoite stage is external to mosquitoes, and methods of producing the same.

Mesothelin can be used as an immunotherapeutic target. It induces a cytolytic T cell response. Portions of mesothelin which induce such responses are identified. Vaccines can be either polynucleotide- or polypeptide-based. Carriers for raising a cytolytic T cell response include bacteria and viruses. A mouse model for testing vaccines and other anti-tumor therapeutics and prophylactics comprises a strongly mesothelin-expressing, transformed peritoneal cell line.

The invention provides compositions comprising bacterial strains for treating and preventing inflammatory and autoimmune diseases.

The present disclosure is related to immunomodulatory bacterial minicells and methods of using the minicells.

Strains of human-derived bacteria have been obtained from complex fecal samples and shown to induce accumulation of Th17 cells in the intestine and promote immune functions. Pharmaceutical compositions containing these bacteria can be used as anti-infectives and as adjuvants in mucosal vaccines.

Bacterial strains are provided having at least one of a reduced size, a sialic acid coat, inducibly altered surface antigens, and expression of PD-L1 or CTLA-4 agonists and/or tryptophanase. The bacteria may have improved serum half-life, increased penetration into tumors, increased tumor targeting and increased antitumor activity. The bacteria are useful for delivery of therapeutic agents that treat of neoplastic diseases including solid tumors and lymphomas.