The present invention relates to chimeric transmembrane immunoreceptors, named zetakines, comprised of an extracellular domain comprising a soluble receptor ligand linked to a support region capable of tethering the extracellular domain to a cell surface, a transmembrane region and an intracellular signalling domain. Zetakines, when expressed on the surface of T lymphocytes, direct T cell activity to those specific cells expressing a receptor for which the soluble receptor ligand is specific. Zetakine chimeric immunoreceptors represent a novel extension of antibody-based immunoreceptors for redirecting the antigen specificity of T cells, with application to treatment of a variety of cancers, particularly via the autocrin/paracrine cytokine systems utilized by human maligancy. In a preferred embodiment is a glioma-specific immunoreceptor comprising the extracellular targetting domain of the IL-13R2-specific IL-13 mutant IL-13(E13Y) linked to the Fc region of IgG, the transmembrane domain of human CD4, and the human CD3 zeta chain.

Some embodiments of the methods and compositions provided herein relate to chimeric antigen receptors (CARs) that specifically bind to human extracellular domains of the IL-13 alpha 2 (IL13Ra2) receptor, cells containing such CARs, and methods of cell-based immunotherapy targeting cancer cells, such as cells of solid tumors.

Methods and compositions for treating cancers (e.g., neural cancers) by dendritic cell vaccination are provided herein.

The technology relates in part to methods for controlling the activity or elimination of therapeutic cells using molecular switches that employ distinct heterodimerizer ligands, in conjunction with other multimeric ligands. The technology may be used, for example to activate or eliminate cells used to promote engraftment, to treat diseases or condition, or to control or modulate the activity of therapeutic cells that express chimeric antigen receptors or recombinant T cell receptors.

In an aspect, the present invention relates generally to the field of treating disease with CAR devices, Smart CAR devices, DE CAR devices, and/or Smart-DE CAR devices. The present invention also relates generally to the genetic modification of cytotoxic T-lymphocytes to reduce target cell killing by apoptosis and/or increase production of lytic proteins at desired times. In an aspect, the invention relates to the use of these genetically modified T-lymphocytes and/or natural killer cells with CAR devices, Smart CAR devices, DE CAR devices, and/or Smart-DE CAR devices to enhance the immune response against a disease.

The invention provides a peptide derived from the interleukin-13 receptor 2, which serves as a HLA-A2-restricted cytotoxic T lymphocyte (CTL) epitope. The invention can be used as a vaccine for glioma and can be formulated into compositions for medical or veterinary use. In addition, the invention provides the use of a peptide derived from the Eph family of tyrosine kinase receptors which can be also used as a vaccine for glioma and can be formulated into compositions for medical or veterinary use.

An antigen-binding domain, antibody or chimeric antigen receptor that binds to CD84.

Provided herein are compositions and methods of treating or preventing a hematological disease or disorder in a subject in need thereof, comprising expanded NK cells and a binding protein comprising a first antigen binding domain with binding specificity to CD123 and a second antigen binding domain with binding specificity to NKp46.

Provided herein are compositions and methods of treating or preventing a hematological disease or disorder in a subject in need thereof, comprising expanded NK cells and a binding protein comprising a first antigen binding domain with binding specificity to CD123 and a second antigen binding domain with binding specificity to NKp46.

Provided herein are systems comprising one or both of cytokines and/or synthetic pathway activators. Also provided herein are systems comprising one or more suppressors of gene expression, and one or both of cytokines and/or synthetic pathway activators. Also provided are systems of chimeric priming receptors that bind ALPG and/or ALPP, chimeric antigen receptors that bind MSLN, and at least one of one or more suppressors of gene expression, and/or one or both of cytokines and/or synthetic pathway activators; cells expressing such systems; and methods of use thereof.