The disclosure provides chimeric antigen receptors (CARs), T cells comprising such CARs, nucleic acids that encode such CARS, and methods of use thereof, e.g., to treat cancer such as B cell malignancies.

The invention provides methods of making immune effector cells (e.g., T cells, NK cells) that can be engineered to express a chimeric antigen receptor (CAR), compositions and reaction mixtures comprising the same, and methods of treatment using the same.

The present invention provides methods and compositions for converting a T cell into a cell that exhibits at least one regulatory T cell phenotype. The converted T cell is generated by contacting a T cell with a cell that is modified to comprise an agent capable of activating PD1 signaling in a T cell. The converted T cell is useful for preventing, suppressing, blocking or inhibiting an immune response. For example the converted T cell is useful for preventing rejection of a transplanted tissue in a human or other animal host, or protecting against graft versus host disease. The converted T cell can also be used to treat autoimmune diseases.

The invention is directed to a chimeric antigen receptor (CAR) directed against CD19, which comprises an amino acid sequence of any one of SEQ ID NO: 1-SEQ ID NO: 13. The invention also provides T-cells expressing the CAR and methods for destroying malignant B-cells.

The invention is directed to a bispecific chimeric antigen receptor, comprising: (a) at least two antigen-specific targeting regions; (b) an extracellular spacer domain; (c) a transmembrane domain; (d) at least one co-stimulatory domain; and (e) an intracellular signaling domain, wherein each antigen-specific targeting region comprises an antigen-specific single chain Fv (scFv) fragment, and binds a different antigen, and wherein the bispecific chimeric antigen receptor is co-expressed with a therapeutic control. The invention also provides methods and uses of the bispecific chimeric antigen receptors.

Disclosed herein are chimeric antigen receptor effector cells (CAR-ECs) and CAR-EC switches. The switchable CAR-ECs are generally T cells. The one or more chimeric antigen receptors may recognize a peptidic antigen on the CAR-EC switch. The CAR-ECs and switches may be used for the treatment of a condition in a subject in need thereof.

The present disclosure relates to compositions and methods for reducing immune tolerance associated with CAR T cell therapy. Embodiments of the present disclosure include isolated nucleic acid sequence comprising a nucleic acid sequence that encodes modified programmed cell death protein 1 (PD-1) and a nucleic acid sequence that encodes chimeric antigen receptor (CAR).

The present invention relates to a chimeric receptor capable of signaling both a primary and a co-stimulatory pathway, thus allowing activation of the co-stimulatory pathway without binding to the natural ligand. The cytoplasmic domain of the receptor contains a portion of the 4-1BB signaling domain. Embodiments of the invention relate to polynucleotides that encode the receptor, vectors and host cells encoding a chimeric receptor, particularly including T cells and natural killer (NK) cells and methods of use.

Provided are compositions and methods relating to regulatable chimeric antigen receptors (RCARs), natural killer cell receptor CARs (NKR-CARs), and regulatable NKR-CARs (RNKR-CARs), where the intracellular signaling or proliferation of the RCAR or RNKR-CAR can be controlled to optimize the use of an RCAR/NKR-CAR- or RNKR-CAR-expressing cell to provide an immune response. Cells can be engineered to express a RNKR-CAR or to express a RCAR and a NKR-CAR (e.g., inhibitory NKR-CAR). For example, a RCAR or RNKR-CAR can comprise a dimerization switch that, upon the presence of a dimerization molecule, can couple an intracellular signaling domain to an extracellular recognition element, e.g., an antigen binding domain, an inhibitory counter ligand binding domain, or costimulatory ECD domain. An RCAR or RNKR-CAR can be engineered to include an appropriate antigen binding domain that is specific to a desired antigen target and used in the treatment of a disease.

The present invention provides a chimeric antigen receptor (CAR) which specifically binds CD79 as well as a nucleic acid sequence and a vector encoding the CAR. It further provides a cell which expresses the CAR at the cell surface.