This invention provides an anti-cancer immunogenic agent(s) (e.g. vaccines) that elicit an immune response specifically directed against renal cell cancers expressing a G250 antigenic marker. Preferred immunogenic agents comprise a chimeric molecule comprising a kidney cancer specific antigen (G250) attached to a granulocyte-macrophage colony stimulating factor (GM-CSF). The agents are useful in a wide variety of treatment modalities including, but not limited to protein vaccination, DNA vaccination, and adoptive immunotherapy.

Compositions and methods are provided for converting the predominant circulating classical monocytes to a non-classical and/or intermediate monocyte phenotype through cytokine stimulation via, for example, macrophage colony-stimulating factor. Once cultured into dendritic cells, these non-classical and/or intermediate monocyte derived cells have increased costimulatory molecule expression, which leads to improved immune and clinical responses in cancer patients receiving dendritic cell vaccination and other immunotherapies. In addition, assays and diagnostic and theranostic methods are provided herein that relate to the discoveries that, prior to treatment, intermediate (CD14+CD16+) and non-classical (CD14dimCD16+) monocytes are increased more than two-fold in patients who later had complete responses to dendritic cell therapy or DC vaccination.

Compositions and methods are provided for preventing or treating neoplastic disease in a mammalian subject. A composition is provided which comprises an enriched immune cell population reactive to a human endogenous retrovirus type E antigen on a tumor cell. A method of treating a neoplastic disease in a mammalian subject is provided which comprises administering to a mammalian subject a composition comprising an enriched immune cell population reactive to a human endogenous retrovirus type E antigen, in an amount effective to reduce or eliminate the neoplastic disease or to prevent its occurrence or recurrence.

Described herein are compositions of matter and methods for treating cancer. The compositions comprise altered human telomerase polypeptides containing T cell epitopes that have been altered to increase immunogenicity. The methods comprise administration of the polypeptides or nucleic acids, such as DNA or RNA encoding the polypeptides, to individuals afflicted with, or at risk of, developing cancer.

The disclosure provides CARs (CARs) that specifically bind to CD70. The disclosure further relates to engineered immune cells comprising such CARs, CAR-encoding nucleic acids, and methods of making such CARs, engineered immune cells, and nucleic acids. The disclosure further relates to therapeutic methods for use of these CARs and engineered immune cells comprising these CARs for the treatment of a condition associated with malignant cells expressing CD70 (e.g., cancer).

The present invention provides chimeric antigen receptor cells specific for carbonic anhydrase IX (CAIX) and methods of using same for treatment of CAIX expressing cancers such as renal cell carcinoma.

The present invention provides chimeric antigen receptor cells specific for carbonic anhydrase IX (CAIX) and methods of using same for treatment of CAIX expressing cancers such as renal cell carcinoma.

Compositions and methods are provided for preventing or treating neoplastic disease in a mammalian subject. A composition is provided which comprises an enriched immune cell population reactive to a human endogenous retrovirus type E antigen on a tumor cell. A method of treating a neoplastic disease in a mammalian subject is provided which comprises administering to a mammalian subject a composition comprising an enriched immune cell population reactive to a human endogenous retrovirus type E antigen, in an amount effective to reduce or eliminate the neoplastic disease or to prevent its occurrence or recurrence.

A method of treating a disease, such as cancer, by administering to a subject in need of such treatment an effective amount of allogeneic T cells with a MHC unrestricted chimeric receptor short time after partial lymphodepletion. The method also comprises administering one or more agents that delay egression of the allogeneic T cells from lymph nodes of said subject during adoptive transfer of said allogeneic T cells to the subject by trapping the T cells in the lymph nodes.

This invention relates to the field of therapeutics. Most specifically invention provides methods of generating in vitro engineered immune cells conditionally expressing interleukin-12 (IL-12) and one or more immunomodulators under the control of a gene expression modulation system in the presence of activating ligand and uses for therapeutic purposes in animals.