A chimeric antibody receptors with anti-cotinine antibodies linked, and uses thereof are disclosed. A T cell presenting the chimeric antibody receptor on the surface secretes interferon gamma specifically for a target molecule of a cotinine-conjugated binding molecule that is added together therewith and induces cell death of the cell expressing the target molecule by the T cell. On the contrary, by administering a cytotoxic agent conjugated with cotinine, cell death of the chimeric antigen receptor T cell is induced. Therefore, if necessary, a cytotoxic agent conjugated with cotinine can be administered to remove the chimeric antigen receptor T cells that have been already administered, thereby suppressing immune side effects due to hyperactivity of T cells. Thus, the chimeric antigen receptor to which the anti-cotinine antibody is linked can be effectively and safely used for the treatment of cancer.

Compositions and methods for treating diseases associated with expression of a cancer associated antigen are disclosed. The invention also relates to chimeric antigen receptor (CAR) specific to a cancer associated antigen as described herein, SHP inhibitory molecules, vectors encoding the same, and recombinant immune effector cells comprising the CARs and SHP inhibitory molecules. Methods of administering a genetically modified immune effector cell expressing a CAR that comprises an antigen binding domain that binds to a cancer associated antigen and a SHP inhibitory polypeptide are also disclosed.

Provided herein are adoptive cell therapy methods involving the administration of doses of cells for treating disease and conditions, including certain plasma cell malignancy. The cells generally express recombinant receptors such as chimeric antigen receptors (CARs) specific to B-cell maturation antigen (BCMA). In some embodiments, the methods are for treating subjects with multiple myeloma (MM). Also provided are genetically engineered cells containing such BCMA-binding receptors for uses in adoptive cell therapy.

The invention is directed to modified T cells, methods of making and using isolated, modified T cells, and methods of using these isolated, modified T cells to address diseases and disorders. In one embodiment, this invention broadly relates to TCR-deficient T cells, isolated populations thereof, and compositions comprising the same. In another embodiment of the invention, these TCR-deficient T cells are designed to express a functional non-TCR receptor. The invention also pertains to methods of making said TCR-deficient T cells, and methods of reducing or ameliorating, or preventing or treating, diseases and disorders using said TCR-deficient T cells, populations thereof, or compositions comprising the same.

The present invention provides therapeutics for the treatment of Multiple myeloma. In particular, the present invention provides chimeric antigen receptor (CAR) T-cells that can target the B cell maturation antigen.

The present invention is directed to a humanized BCMA single-chain variable fragment (scFv), comprising V.sub.H having the amino acid sequence of SEQ ID NO: 4 and V.sub.L having the amino acid sequence of SEQ ID NO: 5. The present invention is also directed to a BCMA chimeric antigen receptor fusion protein comprising from N-terminus to C-terminus: (i) a single-chain variable fragment (scFv) of the present invention, (ii) a transmembrane domain, (iii) at least one co-stimulatory domains, and (iv) an activating domain. A preferred co-stimulatory domain is CD28 or 41-BB. The humanized BCMA-CAR-T cells have specific killing activity with secretion of cytokine IFN-gamma in CAR-T cells in vitro and in vivo.

The present invention relates to agents, compositions, and methods to confer and/or increase immune responses mediated by cellular immunotherapy.

Disclosed herein are engineered natural killer cells that have been modified to express chimeric antigen receptors (CARs). The cells optionally contain other modifications that improve tumor specific cytotoxicity and homing to tumor sites. Also contemplated are methods for using the engineered natural killer cells to treat patients with cancer.

Provided herein, inter alia, are compositions and methods including T-cell cultures enriched for gdT cells, the gdT cells expressing a CAR, and related methods for generating said cells. In an aspect provided herein is a method for generating a T-cell culture enriched for gamma delta T-cells (gd T-cells or T cells). In another aspect, a method for generating a gdT-cell expressing a Chimeric Antigen Receptor (CAR) is provided. The method includes introducing a nuclei acid encoding a CAR to a gdT-cell obtained as provided herein, including embodiments thereof.

The present invention is directed to a humanized BCMA single-chain variable fragment (scFv), comprising V.sub.H having the amino acid sequence of SEQ ID NO: 4 and V.sub.L having the amino acid sequence of SEQ ID NO: 5. The present invention is also directed to a BCMA chimeric antigen receptor fusion protein comprising from N-terminus to C-terminus: (i) a single-chain variable fragment (scFv) of the present invention, (ii) a transmembrane domain, (iii) at least one co-stimulatory domains, and (iv) an activating domain. This humanized BCMA-CAR-T cells have specific killing activity with secretion of cytokine IFN-gamma in CAR-T cells in vitro and in vivo.