The present application discloses an immunogenic composition comprising at least 2 different N. meningitidis capsular saccharides, wherein one or more is/are selected from a first group consisting of MenA, MenC, MenY and MenW which is/are conjugated through a linker to a carrier protein(s), and one or more different saccharides is/are selected from a second group consisting of MenA, MenC, MenY and MenW which is/are directly conjugated to a carrier protein(s).

The present invention provides methods for inducing tolerance and/or suppressing an immune response to an antigen by passing a cell suspension containing an anucleate cell through a constriction, wherein the constriction deforms the cell thereby causing a perturbation of the cell such that an antigen and/or tolerogenic factor enters the cell. In some embodiments, the anucleate cell is delivered to an individual and the antigen is delivered to and processed in a tolerogenic environment to induce tolerance and/or suppress an immune response to the antigen.

The present disclosure provides methods of preparing heteroaryl-containing compounds, wherein an azide-alkyne cycloaddition is accelerated in the presence of lauryldimethylamine oxide (LDAO). The present disclosure further provides conjugates of polypeptides and antigens prepared using such methods.

Technologies for the prevention and/or treatment of pneumococcal infections.

The present disclosure provides T-cell modulatory antigen-presenting polypeptides, including single-chain antigen-presenting polypeptides and multimeric antigen-presenting polypeptides. The present disclosure provides nucleic acids comprising nucleotide sequences encoding T-cell modulatory antigen-presenting polypeptides of the present disclosure, as well as cells genetically modified with the nucleic acids. A T-cell modulatory antigen-presenting polypeptide of the present disclosure is useful for modulating activity of a T cell. Thus, the present disclosure provides methods of modulating activity of a T cell.

Technologies for the prevention and/or treatment of pneumococcal infections.

Methods of producing bioconjugates of O-antigen polysaccharides covalently linked to a carrier protein using recombinant host cells are provided. The recombinant host cells used in the methods described herein encode a particular oligosaccharyl transferase enzyme depending on the O-antigen polysaccharide bioconjugate to be produced. The oligosaccharyl transferase enzymes can be PglB oligosaccharyl transferase or variants thereof. Also provided are compositions containing the bioconjugates, and methods of using the bioconjugates and compositions described herein to vaccinate a subject against extra-intestinal pathogenic E. coli. (ExPEC).

The present invention relates to the prevention and treatment of disease like cancer. The inventors have previously characterized MELOE-1 antigen as an IRES dependent, melanoma specific translation product from a lncRNA mainly transcribed in the melanocytic lineage. MELOE-1 contains numerous class II epitopes and one HLA-A*0201-restricted CD8 epitope eliciting a frequent repertoire of high avidity T cells. They designed various synthetic long peptide (SLPs) comprising a CD4 epitope coupled to the CD8 epitope by a serie of linkers of 4 to 6 aa and studied the efficacy of T cell clone activation by SLP-loaded DC in vitro. Particularly, they evaluated the ability of a few selected SLPs to stimulate specific T cells proliferation of PBL from healthy donors in vitro and finally, they explored the vaccination potential of their best SLP candidate in vivo in an HLA*A0201/HLA-DRB0101 transgenic mouse. Thus, the present invention relates a SLP comprising a CD4 class II peptide linked to a CD8 class I peptide by a specific linker and its use in the treatment of disease like cancers.

The present invention discloses a phosphorylated polypeptide antigen vaccine, comprising at least two polypeptide fragments or conservatively modified variants thereof from human full-length Tau protein, wherein the polypeptide fragments or conservatively modified variants thereof contain phosphorylation sites. The present invention also discloses a complex vaccine formed by coupling a phosphorylated polypeptide antigen vaccine with a carrier. The polypeptide antigen vaccine and the complex vaccine can be used for preventing and/or treating tauopathy comprising Alzheimer's disease (AD).

Technologies for the prevention and/or treatment of pneumococcal infections.