The present disclosure generally relates to, inter alia, recombinant immune cells that have been engineered to express reduced levels of one or more subunits of the mediator complex, and particularly relate to engineered immune cells exhibiting enhanced effector functions. Also provided are methods for generating engineered immune cells with enhanced effector function, pharmaceutical compositions the same, as well as methods and kits for the prevention and/or treatment of a health condition in subjects in need thereof.

The presently disclosed subject matter provides for methods and compositions for treating cancer (e.g., breast cancer). It relates to mutant phosphatidylinositol-4,5-bisphosphate 3-kinase catalytic subunit alpha (PIK3CA)-targeted T cell receptors (TCRs) that specifically target a mutant PIK3CA peptide (e.g., a human mutant PIK3CA peptide), and immunoresponsive cells comprising such TCRs. The presently disclosed mutant PIK3CA peptide-specific TCRs have enhanced immune-activating properties, including anti-tumor activity.

The present disclosure provides adoptive T cell therapies that have improved architectures for targeting antigens and recruiting multimeric immune signaling complexes for treating, preventing, or ameliorating at least one symptom of a cancer, infectious disease, autoimmune disease, inflammatory disease, and immunodeficiency, or condition associated therewith.

The present disclosure provides binding proteins, such as TCRs, that specifically bind various tumor associated antigens (including human BRAFV600E epitope), cells expressing such antigen specific binding proteins, nucleic acids encoding the same, and compositions for use in treating diseases or disorders in which cells express BRAFV600E, such as in cancer.

CAR cells and humanized antibodies targeting DCLK1 expressed on/in tumor cells or circulating cancer cells are described as a new method of cancer treatment. The antibodies and cells are safe and effective in patients and can be used to treat cancer expressing the DCLK1 proteins.

The presently disclosed subject matter provides for methods and compositions for treating cancer (e.g., breast cancer). It relates to mutant PIK3CA-targeted TCRs that specifically target a mutant PIK3CA peptide (e.g., a human mutant PIK3CA peptide), and immunoresponsive cells comprising such TCRs. The presently disclosed mutant PIK3CA peptide-specific TCRs have enhanced immune-activating properties, including anti-tumor activity.

The present disclosure provides adoptive T cell therapies that have improved architectures for targeting antigens and recruiting multimeric immune signaling complexes for treating, preventing, or ameliorating at least one symptom of a cancer, infectious disease, autoimmune disease, inflammatory disease, and immunodeficiency, or condition associated therewith.

The present disclosure provides methods for delivering multi-cytokine signals by overexpressing wild-type or mutant signal transduction molecules in lymphocytes (e.g. CAR T cells). Compositions and methods of treatment are also provided.

The presently disclosed subject matter provides for methods and compositions for treating cancer (e.g., breast cancer). It relates to mutant PIK3CA-targeted TCRs that specifically target a mutant PIK3CA peptide (e.g., a human mutant PIK3CA peptide), and immunoresponsive cells comprising such TCRs. The presently disclosed mutant PIK3CA peptide-specific TCRs have enhanced immune-activating properties, including anti-tumor activity.

The present disclosure relates generally to compositions and methods for improving T cell therapy. In particular, the disclosure provides polypeptides and recombinant nucleic acid constructs and/or recombinant nucleic acids encoding polypeptides having mutations capable of altering T cell signaling, cytokine production, and/or in vivo persistence in tumors of therapeutic T cells comprising the mutation. The T cell signaling can be by NFAT, NF-B and/or AP-1 pathways. The disclosure also provides vectors and cells including the polypeptides and/or recombinant nucleic acid constructs and/or recombinant nucleic acids of the disclosure as well as methods of preparing a T cell for use in cell therapy, and methods of identifying a mutation useful for improving T cell therapy.