Provided are compositions that include one or more peptides, wherein each peptide is at least 8 amino acids long and has an amino acid sequence as set forth in any of SEQ ID NOs: 1-45. Also provided are in vitro populations of dendritic cells that include the disclosed compositions, in vitro populations of CD8.sup.+ T cells capable of being activated upon being brought into contact with the disclosed populations of dendritic cells, antibodies or antibody-like molecules that specifically bind to complexes of MHC class I molecules and the disclosed peptides, methods for treating and/or preventing cancer such as leukemia using the disclosed compositions and/or populations, methods for making cancer vaccines using the disclosed compositions, methods for screening target peptides for inclusion in an immunotherapy composition, methods for determining a prognosis of a leukemia patient, and kits that include at least one of the disclosed peptides.

The present invention relates to a method for inducing an immune response manifested by type I interferon production in a synergistic manner comprising the sequential administration of danger signals within a certain timeframe and means for practicing the method. The present invention is particularly useful for immunomodulation, immunotherapy and vaccination.

The present disclosure provides methods comprising administering to the individual an effective amount of an agent that decreases or inhibits TIGIT expression and/or activity and an anti-cancer agent and/or an anti-cancer therapy. Further provided are kits comprising an anti-cancer agent, an agent that decreases or inhibits TIGIT expression and/or activity, or both, as well as instructions for use thereof.

The present disclosure provides methods comprising administering to the individual an effective amount of an agent that decreases or inhibits TIGIT expression and/or activity and an anti-cancer agent and/or an anti-cancer therapy. Further provided are kits comprising an anti-cancer agent, an agent that decreases or inhibits TIGIT expression and/or activity, or both, as well as instructions for use thereof.

In some aspects, the invention relates to compositions and methods of generating antigens, wherein the antigen is a biomolecule that is modified by a reactive oxygen species or a reactive nitrogen species. In some aspects, the invention relates to compositions and methods of generating antibodies that bind to biomolecules that have been modified by a reactive oxygen species or a reactive nitrogen species. In some aspects, the invention relates to compositions and methods of generating antibodies that bind to novel epitopes on unmodified biomolecules. In some aspects, the invention relates to the induction of active immunotherapeutic processes (e.g., using preventive or therapeutic vaccines), which may comprise administering neo-antigens generated through methods and compositions described herein.

This invention provides a method for preparing dendritic cells from monocytes with the use of interferon via non-adhesive culture. The method for preparing cytotoxic dendritic cells from monocytes comprises subjecting monocytes which were isolated from the peripheral blood to non-adhesive culture in the presence of GM-CSF and pegylated interferon , and further conducting non-adhesive culture with the addition of prostaglandin E2 and OK432.

The present disclosure provides methods comprising administering to the individual an effective amount of an agent that decreases or inhibits TIGIT expression and/or activity and an anti-cancer agent and/or an anti-cancer therapy. Further provided are kits comprising an anti-cancer agent, an agent that decreases or inhibits TIGIT expression and/or activity, or both, as well as instructions for use thereof.

Disclosed herein are methods and compositions dock and lock (DNL) complexes comprising an AD moiety selected from an AKAP protein and a DDD moiety selected from a protein kinase A regulatory subunit. Also disclosed are fusion proteins comprising an AD moiety or DDD moiety attached to an effector moiety. The DDD moieties form dimers that bind to the AD moiety to form the DNL complexes. The effector moieties may be selected from a wide range of known effector moieties that produce one or more physiological effects, including but not limited to cell death. The DNL complexes may further comprise one or more diagnostic and/or therapeutic agents. The DNL complexes are of use for treating and/or diagnosing a variety of diseases or conditions.

The present disclosure provides methods comprising administering to the individual an effective amount of an agent that decreases or inhibits TIGIT expression and/or activity and an anti-cancer agent and/or an anti-cancer therapy. Further provided are kits comprising an anti-cancer agent, an agent that decreases or inhibits TIGIT expression and/or activity, or both, as well as instructions for use thereof.

Embodiments are directed to nanofiber compositions comprising antigens, such as the fusion peptide (FP) of HIV-1 trimers. The compositions may be used as vaccines themselves, or they may be used in combination with vaccines to enhance the immune response and increase antibody titers.