Immunogenic compositions against Bacillus anthracis comprising a stabilized protective antigen complex are disclosed. The stabilized complex comprises protective antigen protein and capillary morphogenesis protein-2, with the capillary morphogenesis protein-2 being bound to the protective antigen protein along a binding interface. The stabilized protective antigen complex has increased thermal and structural stability, along with resistance to premature proteolytic degradation. Methods of using the same to induce an immunogenic response in a subject against B. anthracis infection are also disclosed.

The present invention provides compositions comprising peptide-coupled biodegradable poly(lactide-co-glycolide) (PLG) particles In particular, PLG particles are surface-functionalized to allow for coupling of peptide molecules to the surface of the particles (e.g., for use in eliciting induction of immunological tolerance).

The present invention relates to vaccines comprising at least one mRNA encoding at least one antigen for use in the treatment of a disease in newborns and/or infants, preferably exhibiting an age of not more than 2 years, preferably of not more than 1 year, more preferably of not more than 9 months or even 6 months, wherein the treatment comprises vaccination of the newborn or infant and eliciting an immune response in said newborn or infant. The present invention is furthermore directed to kits and kits of parts comprising such a vaccine and/or its components and to methods applying such a vaccine or kit.

The invention refers to a method for producing an antigen comprising at least one hydrophobic or partially hydrophobic antigen molecule from a virus, a bacterium, fungus, protozoan, parasite, a human neoplastic cell or an animal neoplastic, tumor or 5 cancer cell, the method comprising the steps of providing a virus, or cell comprising an antigen molecule, purifying the cell comprising the antigen molecule, solubilizing the antigen molecule in a solubilizing agent that preserves an intact antigen molecule upon solubilization and reconstituting the antigen molecule in a lipid-binding polypeptide that provides a lipid membrane mimicking environment and a reconstituted antigen particle 10 obtained by this method.

Provided herein are methods and compositions for stabilization of active agents. The active agents are distributed, mixed or embedded in a silk fibroin matrix, thereby retaining the bioactivity of the active agents upon storage and/or transportation. In some embodiments, the storage-stable vaccine-silk compositions are also provided herein.

Anti-MHC assay methodologies utilize functionally active, recombinantly produced, truncated individual soluble MHC trimolecular complexes that are linked to a substrate.

The present invention provides compositions comprising peptide-coupled biodegradable poly(lactide-co-glycolide) (PLG) particles. In particular, PLG particles are surface-functionalized to allow for coupling of peptide molecules to the surface of the particles (e.g., for use in eliciting induction of immunological tolerance).

The present invention relates to an immunostimulatory nanocomplex. The immunostimulatory nanocomplex comprises polyglutamic acid (PGA), a first positively charged substance, a second positively charged substance and a dengue viral protein for holding the dengue viral protein inside. The immunostimulatory nanocomplex is characterized by having a nonuniformally and positively charge distribution along a radial direction thereof. The nonuniformally and positively charge distribution comprises a first electrically charged portion having substantially electrical neutrality, a second electrically charged portion surrounding the first electrically charged portion, and a third electrically charged portion surrounding the second electrically charged portion. The third electrically charged portion has a third volume charge density more than a second volume charge density of the second electrically charged portion, thereby enhancing CD8(+) T-cell response and higher antibody titer after administrating an organism with the immunostimulatory nanocomplex.

A carrier molecule composition. Specific implementations may include: a carrier molecule including at least one cell penetrating peptide (CPP) where the carrier molecule may include at least one hydrophobic domain and where the carrier is non-covalently associated with a biologically active molecule in one of a micelle and a liposome.

The invention compositions comprising a continuous hydrophobic phase and liposomes as a vehicle for delivery of an antigen capable of inducing a cytotoxic T lymphocyte (CTL) response and methods for their use in the treatment of cancer.