A method is presented for screening cells that produce allogeneic autophagosome enriched compositions able to induce expression of a selective marker on a subpopulation of peripheral blood mononuclear cells, the method comprising contacting a cell with a proteasome inhibitor, contacting the cell with a lysosome inhibitor, harvesting the resulting autophagosomes, determining a molecular signature of the harvested autophagosomes, and selecting cells that divert one or more Toll-like receptor agonist and/or one or more molecular chaperones to the harvested autophagosomes. By screening for cells that divert one or more Toll-like receptor agonist and/or one or more molecular chaperones to the harvested autophagosomes, enriched populations of autophagosomes may be generated which may illicit a specific immune response against numerous cancer types. In this way, an allogeneic, off-the-shelf cancer vaccine may be produced and made available to be administered in order to stimulate a targeted immune response in patients bearing different tumor types.

A method is presented for screening cells that produce allogeneic autophagosome enriched compositions able to induce expression of a selective marker on a subpopulation of peripheral blood mononuclear cells, the method comprising contacting a cell with a proteasome inhibitor, contacting the cell with a lysosome inhibitor, harvesting the resulting autophagosomes, determining a molecular signature of the harvested autophagosomes, and selecting cells that divert one or more Toll-like receptor agonist and/or one or more molecular chaperones to the harvested autophagosomes. By screening for cells that divert one or more Toll-like receptor agonist and/or one or more molecular chaperones to the harvested autophagosomes, enriched populations of autophagosomes may be generated which may illicit a specific immune response against numerous cancer types. In this way, an allogeneic, off-the-shelf cancer vaccine may be produced and made available to be administered in order to stimulate a targeted immune response in patients bearing different tumor types.

Disclosed are methods, and compositions useful for stimulation of immunity towards cancer by utilizing dendritic cells and products therefrom that have been stimulated and/or incorporated mRNA encoding survivin and/or related gene sequences, defined herein as survivin modified mRNA. In one embodiment dendritic cells generated from allogeneic off the shelf sources are transfected with survivin modified mRNA and the cells are administered in an immunogenic manner. In some embodiments transfected dendritic cells are induced to undergo immunogenic cell death ex vivo subsequently to which they are used as immunogenic stimuli. In other embodiments preparation of the injection site is performed prior to administration of dendritic cells that have been transfected with survivin modified mRNA by pre-administration of agents increasing the number of local dendritic cells in the skin. In embodiments in vivo, transfection of survivin modified mRNA is performed by administration of dendritic cell accumulating agents followed by in vivo transfection.

The present invention relates to peptides, nucleic acids, and cells for use in the immunotherapy of cancer. The present invention furthermore relates to survivin-derived tumor-associated cytotoxic T cell (CTL) peptide epitopes, alone or in combination with other tumor-associated peptides that serve as active pharmaceutical ingredients of vaccine compositions that stimulate anti-tumor immune responses. The present invention specifically relates to three novel peptide sequences and variants thereof derived from HLA class I and class II molecules of human tumor cells that can be used in vaccine compositions for eliciting anti-tumor immune responses.

The present invention relates to immunogenic compositions, in particular, immunogenic compositions comprising at least one peptide derived from survivin, or a functional derivative thereof. Uses of the immunogenic compositions in the treatment of cancer, in particular a cancer over-expressing survivin are also disclosed.

The compositions described herein include an epitope of a peptide that may elicit an immune response in a subject following administration. The compositions may comprise nucleic acids. The compositions may comprise peptides. The methods described herein include administering a composition comprising an epitope of a peptide to a subject in need thereof.

Disclosed are compositions and methods related to rendering ineffective Th1 T cells resistant to the inhibitory cytokine milieu present in a cancer microenvironment. Tumor-specific T cells are modified to employ a chimeric receptor that binds inhibitory/suppressive cytokines and converts their intracellular consequences to a Th1 immunostimulatory/activating signal. The T cells employ a chimeric antigen receptor having exodomains for IL10, IL13 and/or IL4 fused with the signal transducing endodomains for IL2 and/or IL7.

Materials and methods useful for generating highly mannosylated pseudotyped lentiviral vector particles comprising a Vpx protein are provided.

This invention provides methods for treating cancer in a subject comprising administering to the subject an anti-PD-1 antibody and an anti-CD27 antibody. In some embodiments, the cancer is colorectal cancer, rectal cancer, colon cancer, lung cancer, melanoma, ovarian cancer, head and neck cancer, or any combination thereof.

The invention concerns a variant (double mutant form) of the survivin polypeptide; nucleic acid molecules encoding the survivin variant; antigen presenting cells (APCs) such as dendritic cells, or APC precursors, comprising the variant survivin polypeptide or encoding nucleic acid sequence; and methods for treating a malignancy, such as myeloma, or for inducing an immune response, utilizing a variant survivin polypeptide, nucleic acid molecule, or APC.