The present invention concerns methods and compositions for treating or preventing infection or dissemination of the bacterium Mycobacterium tuberculosis and for stimulating an immune response against the bacteria. In certain embodiments, the methods and compositions involve anti-LAM peptides or mimotopes. In some embodiments, the methods and compositions involve vaccine compositions. In additional embodiments, the present invention concerns peptide sequences and their use in the development of therapeutics, detection assays or vaccines against M. tuberculosis.

The present invention provides a complex for use in the prevention and/or treatment of cancer, the complex comprising a) a cell penetrating peptide, b) at least one antigen or antigenic epitope, and c) at least one TLR peptide agonist, wherein the components a)-c) are covalently linked. In particular, compositions for use in the prevention and/or treatment of cancer, such as a pharmaceutical compositions and vaccines are provided.

The present invention relates to fusion polypeptides comprising (a) a 4-oxalocrotonate tautomerase (4-OT)-based polypeptide scaffold which is capable of forming multimers, and (b) a polypeptide antigen; and homo- and hetero-multimers thereof. The invention also provides nucleic acid molecules and vectors encoding the fusion polypeptides and multimers; and methods of using the fusion polypeptides, multimers, nucleic acid molecules and vectors to produce an immunogenic response against the polypeptide antigen.

The present disclosure provides nanostructures (e.g., monolayer or bilayer nanostructures) comprising porphyrins with cobalt chelated thereto such that the cobalt metal resides within monolayer or bilayer in the porphyrin macrocycle. The nanostructures can have presentation molecules comprising epitopes from microorganisms with a histidine tag attached thereto, such that at least a part of the his-tag is within the monolayer or bilayer and coordinated to the cobalt metal core and the presentation molecules are exposed to the outside of the nanostructures. The nanostructures can further comprise a cargo. The nanostructures can be used to deliver the cargo to an individual.

The present disclosure relates to extracellular vesicles (EVs), e.g., exosomes, comprising a payload (e.g., an antigen, adjuvant, and/or immune modulator) and/or a targeting moiety. Also provided herein are methods for producing the EVs (e.g., exosomes) and methods for using the EVs (e.g., exosomes) to treat and/or prevent diseases or disorders, e.g., cancer, graft-versus-host disease (GvHD), autoimmune disease, infectious diseases, or fibrotic diseases.

The present invention relates to animals and more specifically to insects. In more details the invention relates to an edible composition or insect artificial diet comprising bacteria, fungi or any fragment or spore thereof for use as a vaccine in preventing a microbial disease or infection in an insect. Still, the present invention relates to preventive methods and different uses relating to said compositions or bacteria, fungi or fragments or spores thereof.

The present invention relates to animals and more specifically to insects. In more details the invention relates to an edible composition or insect artificial diet comprising bacteria, fungi or any fragment or spore thereof for use as a vaccine in preventing a microbial disease or infection in an insect. Still, the present invention relates to preventive methods and different uses relating to said compositions or bacteria, fungi or fragments or spores thereof.

The invention relates to an autologous cancer vaccine and also to the method for producing same comprising the following steps: a) extracting the proteins contained in a serum or plasma sample obtained from a patient suffering from cancer; and b) bringing the proteins extracted in step a) into contact with particles of hydroxyapatite and/or tricalcium phosphate.

The present disclosure is directed to individual peptide immunogen constructs targeting portions of the Tau protein for the treatment and/or prevention of tauopathies. The present disclosure is also directed to compositions containing the peptide immunogen constructs, methods of making and using the peptide immunogen constructs, and antibodies produced by the peptide immunogen constructs.

The present invention generally relates to compositions and methods for delivering a vaccine. The compositions and methods disclosed herein are particularly useful in making prophylactic and therapeutic vaccines.