Production and use of novel therapeutic cells, called T-Vehicles, in the allogeneic Adoptive Cell Therapy setting allows a wide range of therapeutic benefits to accrue with minimal or no risk of GVHD. T-Vehicles are created from donor T cells that are altered to contain therapeutic attributes that do not include their native antigen receptors and can deliver therapeutic benefits irrelevant of their native antigen specificity. T-Vehicles can possess highly restricted native antigen specificity that renders them unable to recognize antigens present on normal cells and incapable of initiating GVHD, making them ideal transport vehicles to deliver various therapeutic attributes in vivo. In essence, production and use of T-Vehicles is a paradigm shift that opens the door to therapeutic application of T cells in ways not previously contemplated, independent of whether or not there is an HLA match between the donor and the recipient.

The technology described herein is directed to targeting molecules that bind to one or more transmembrane molecules expressed in tumor vascular endothelial cells and that are capable of targeting an agent that induces cell death, for example, immunogenic or non-immunogenic cancer cell death. In another aspect, described herein are methods of treating a subject having cancer comprising administering said targeting molecules and agents, and, in certain embodiments, enhancing the immunogenic response to the cancer, for example, by enhancing intratumoral infiltration of T cells.

A chimeric antigen receptor (CAR), including an antigen-binding domain, a CD8 or CD28 hinge domain, a DAP10 cytoplasmic domain, a 2B4 cytoplasmic domain, and a CD3z cytoplasmic domain, where the CAR is expressed in natural killer (NK) cells. A method for treating cancer, including administering a therapeutically effective amount of a composition containing a NK cell that expresses the CAR, or a therapeutically effective amount of a cellular therapeutic agent containing a NK cell that expresses the CAR, to a subject in need thereof.

Provided in the present invention are an improved hinge area and the use of same in constructing CAR skeleton. The amino acid sequence of the improved hinge area is as shown in SEQ ID NO.1 or SEQ ID NO.2 or SEQ ID NO.3, and the hinge area can prolong the survival of CAR-T cells in vivo and/or improve the capability of CAR-T cells to infiltrate tumors.

Fusion proteins comprising IL2 and IL2R (e.g., CIRB), IL2, IL2R and IL21R (e.g., CIRB21), and/or comprising IL2, IL2R, and CD28 (e.g., CIRB28); natural killer (NK) cells that express the fusion proteins and methods of use thereof, e.g., to treat subjects with cancer; and regulatory T cells (T-regs) that express a fusion protein comprising IL2, IL2R, and CD28 and methods of use thereof, e.g., to treat subjects with autoimmune disease or GVHD.

The present invention relates to compositions and methods for generating a modified T cell with a nucleic acid capable of downregulating endogenous gene expression selected from the group consisting of TCR chain, TCR chain, beta-2 microglobulin, a HLA molecule, CTLA-4, PD1, and FAS and further comprising a nucleic acid encoding a modified T cell receptor (TCR) comprising affinity for a surface antigen on a target cell or an electroporated nucleic acid encoding a chimeric antigen receptor (CAR). Also included are methods and pharmaceutical compositions comprising the modified T cell for adoptive therapy and treating a condition, such as an autoimmune disease.

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.

Provided are antibodies, fragments thereof, chimeric antigen receptors (CARs) and T cell receptors (TCRs) comprising one or more of the anti-PMCA antigen binding domains disclosed herein. SynNotch receptors that comprise an anti-PSCA binding domain Provided are polynucleotides encoding antibodies, fragments thereof, CARs, T cell receptors (TCR) and SynNotch receptors. Provided are compositions, cells and cell therapies comprising the same. Further provided are methods of treatment.

A fully human antibody targeting GPRC5D and a chimeric antigen receptor (CAR) comprising the fully human antibody. A host cell expressing the CAR, such as a CAR-T cell. A use of the fully human antibody, the CAR, and the CAR-T cell in treatment of tumors (such as multiple myeloma).

The present invention provides immunoresponsive cells, including T cells, cytotoxic T cells, regulatory T cells, and Natural Killer (NK) cells, expressing at least one of an antigen recognizing receptor and one of a chimeric costimulatory receptor. Methods of using the immunoresponsive cell include those for the treatment of neoplasia and other pathologies where an increase in an antigen-specific immune response is desired.