Some aspects of this disclosure provide engineered exopolysaccharide-associated proteins, engineered bacteria expressing such proteins, and engineered biofilms comprising such proteins. Some aspects of this disclosure provide methods for engineering exopolysaccharide-associated proteins, and for the generation of engineered bacteria and biofilms expressing or comprising such proteins. Some aspects of this disclosure provide compositions and methods useful for the generation of vaccines and the vaccination of subjects, for delivering molecules of interest to a target site, for example, a surface, for purification of molecules of interest, for example, from bioreactors comprising engineered bacteria as provided herein, and for bioremediation applications, such as the cleanup of environmental pollutants.

Provided are a fusion protein and a construction method thereof. The fusion method consists of: a Haemophilus influenzae protein D and a Hin47 (Htra) protein. The fusion protein can serve as a protein vehicle for a Haemophilus influenzae polysaccharide-protein conjugate vaccine, thereby increasing immunogenicity of a polysaccharide antigen.

Longer chain antigenic O-polysaccharide chains for use as a hapten in conjugate vaccines can be produced in a controlled manner using recombinant Gram-negative bacteria that overexpress native or heterologous genes of the wzz family, for example wzzB. Bacteria expressing a chosen wzz gene have modified O-polysaccharide chain lengths, allowing the bacteria to produce lipopolysaccharides having the longer O-polysaccharides. The LPS produced by the bacteria can be hydrolyzed to form core-O-polysaccharide molecules that can be conjugated to a carrier molecule, for example flagellin, to produce a vaccine. The invention also provides recombinant bacteria producing the longer chain O-polysaccharides, the polysaccharide molecules, themselves, conjugated vaccines comprising the O-polysaccharides, pharmaceutical compositions and kits.

The present invention relates generally to the field of ocular therapeutics and the development thereof for use in humans and animals including mammals and birds. More particularly, it relates to subunit vaccines that are effective against pathogens causing infections thereof for use in humans and animals including mammals and birds. The present invention specifically provides a novel vaccine formulation suitable for ocular immunization comprising a subunit vaccine antigen in an amount to provoke a protective immune response and at least two adjuvants of which one is corpuscular. It further provides a method for inducing a local and systemic immune response and methods for preventing recurrence of ocular infections and/or modulates the occurrence and/or severity of sequels.

Acute myeloid leukemia (AML) is a clonal disorder of hematopoietic stem and progenitor cells. It is a devastating disease with a poor prognosis and an average 5-year survival rate of about 30%. Disclosed herein are composition and methods for treating leukemia with a biomaterial comprising a polymer scaffold, a dendritic cell activating factor, a dendritic cell recruitment factor, and at least one leukemia antigen. The biomaterial-based vaccine disclosed herein promotes a potent, durable and transferable immune response against acute myeloid leukemia to prevent cell engraftment and synergizes with chemotherapy to prevent relapse.

The present invention relates to virus-like particles of plant virus Cucumber Mosaic Virus (CMV), and in particular to modified VLPs of CMV comprising Th cell epitopes, in particular universal Th cell epitopes. Furthermore, these modified VLPs serve as, preferably, vaccine platform, for generating immune responses, in particular antibody responses, against antigens linked to said modified VLPs. The presence of the Th cell epitopes, in particular universal Th cell epitopes, led to a further increase in the generated immune response.

The present invention discloses an immunogenic composition comprising S. pneumoniae capsular saccharide conjugates from serotypes 19A and 19F wherein 19A is conjugated to a first bacterial toxoid and 19F is conjugated to a second bacterial toxoid. Vaccines, methods of making vaccines and uses of the vaccines are also described.

The present invention relates to Neisseria ORF2086 proteins, crossreactive immunogenic proteins which can be isolated from nesserial strains or prepared recombinantly, including immunogenic portions thereof, biological equivalents thereof, antibodies that immunospecifically bind to the foregoing and nucleic acid sequences encoding each of the foregoing, as well as the use of same in immunogenic compositions that are effective against infection by Neisseria meningitidis serogroup B.

Provided herein are PEGylated liposomes, and methods of making and using thereof. The PEGylated liposomes comprise at least a cholesterol, a non-PEGylated neutral lipid, and a PEGylated lipid, wherein the average molecular weight of the PEG component in the PEGylated lipid is about 5000 Daltons or less. The PEGylated liposomes are stable and capable of delivery of an agent for the generation of an immune response, for example an agent for vaccine, therapeutic, or diagnostic uses. Compositions and methods related to making the PEGylated liposomes and using the PEGylated liposomes for stimulating an immune response are also provided.

Provided herein is an E. coli O polysaccharide, O25B. Also provided herein are prokaryotic host cells containing enzymes (e.g., glycosyltransferases) used in O25B production. The host cells provided herein produce O25B bioconjugates, wherein said bioconjugates contain O25B linked to a carrier protein. Further provided herein are compositions, e.g., pharmaceutical compositions, including O25B and/or bioconjugates containing O25B. Such compositions can be used as vaccines against infection with ExPEC, and may further include one or more additional bioconjugates.