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.

An injectable immunogenic composition comprising capsular saccharides from at least two of serogroups A, C, W135 and Y of Neisseria meningitidis, wherein said capsular saccharides are conjugated to carrier protein(s) and/or are oligosaccharides, and wherein (i) the composition comprises <50 g meningococcal saccharide per dose, and/or (ii) the composition further comprises an antigen from one or more of: (a) serogroup B N.meningitidis; (b) Haemophilus influenzae type B; and/or (c) Streptococcus pneumoniae. Saccharide antigens in the compositions are generally conjugated to a carrier.

Described herein are compositions and methods for the prevention and treatment of ebolavirus infection certain embodiments of the present invention, monoclonal antibodies substantially similar to those described herein, as well as affinity matured variants thereof, alone or in combination, provide therapeutic efficacy in a patient against multiple species of ebolavirus.

The present invention is in the field of pneumococcal capsular saccharide conjugate vaccines. Specifically, an immunogenic composition for infants is provided comprising a multivalent Streptococcus pneumoniae vaccine comprising 2 or more capsular saccharide conjugates from different serotypes, wherein the composition comprises a serotype 22F saccharide conjugate. Such a vaccine may be used in infant populations to reduce the incidence of elderly pneumococcal disease such as exacerbations of COPD and/or IPD.

The present invention provides methods for making polysaccharide-protein conjugates in which polysaccharides, typically from bacteria, are conjugated to a carrier protein by reductive amination under conditions which improve conjugation reaction consistency, increase consumption of protein during conjugation reaction, generate conjugates of higher molecular weight, and/or reduce the levels of free cyanide in the conjugate reaction product. The polysaccharide-protein conjugates obtained using these methods are useful for inclusion in multivalent vaccines.

An injectable immunogenic composition comprising capsular saccharides from at least two of serogroups A, C, W135 and Y of Neisseria meningitidis, wherein said capsular saccharides are conjugated to carrier protein(s) and/or are oligosaccharides, and wherein (i) the composition comprises <50 g meningococcal saccharide per dose, and/or (ii) the composition further comprises an antigen from one or more of (a) serogroup B N. meningitidis; (b) Haemophilus influenzae type B; and/or (c) Streptococcus pneumoniae. Saccharide antigens in the compositions are generally conjugated to a carrier.

In some embodiments, described herein is a method of tumor treatment or tumor vaccination. The method generally comprises applying to a human being in need thereof a tumor therapeutic composition or tumor vaccine defined herein. The tumor therapeutic composition or tumor vaccine can be produced by protein transfer of glycosyl-phosphatidylinositol (GPI)-anchored immunostimulatory or costimulatory molecules

The present invention provides a method for generating a functionally modifying antibody to an ion channel comprising immunizing a host with a cyclic peptide comprising at least part of an extracellular sequence of said ion channel.

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 application relates to an immunogenic composition comprising at least 2 conjugates of N. meningitidis capsular saccharide and protein carrier, wherein said conjugates comprise at least 2 different N. meningitidis capsular saccharides selected from the group consisting of MenA, MenC, MenY and MenW, wherein at least one capsular saccharide is conjugated to a protein carrier with a saccharide:protein ratio (w/w) between 1:2-1:5, and wherein at least one different capsular saccharide is conjugated to a protein carrier with a saccharide:protein ratio (w/w) between 5:1-1:1.99.