Provided are T cell receptors that recognize or bind to Epstein-Barr virus (EBV) antigens, genetically engineered cells, and cell-based therapies.

This disclosure provides for engineered T cell Receptors (TCRs), cells comprising the TCRs, and methods of making and using the TCRs. The current disclosure relates to TCRs that specifically recognize epitope(s) from tumor antigen COL6A3. Accordingly, aspects of the disclosure relate to an engineered T-cell Receptors (TCRs), nucleic acids encoding the TCRs, and cells comprising the nucleic acids and TCRs. Also provided are compositions comprising the cells, nucleic acids, or engineered TCRs of the disclosure, methods of making the cells and methods of using the embodiments of the disclosure for therapeutic treatments.

Compositions comprising donor cells, acceptor cells, membrane-enclosed bodies and methods are described herein.

The present invention is directed to a monoclonal anti-human PD-L1 antibody, or a single-chain variable fragment (scFv), comprising V.sub.H having the amino acid of SEQ ID NO: 3 and V.sub.L having the amino acid of SEQ ID NO: 5. The present invention is also directed to a 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. The inventors have shown that the PD-L1 CAR-T cells of the present invention are more effective than Avelumab PD-L1 CAR-T cells in killing several cancer cell lines. PD-L1 CAR-T can be used alone or in combination with other agent in an immunotherapy.

The present disclosure relates to a novel platform for immunotherapy which combines CAR engineered γδ T cells with armoring interleukin IL-18 that can be expressed constitutively or inducibly, or with a chimeric cytokine receptor comprising the endodomain of the IL-18 receptor. The system/platform and the associated methods according to the present disclosure have advantages such as increased immune cell potency and persistence for therapeutic applications.

The present invention provides, in certain aspects, a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15), and methods for producing such cells. The invention further provides methods of using a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15) to treat cancer in a subject or to enhance expansion and/or survival of NK cells.

The invention provides improved T cell compositions and methods for manufacturing T cells. More particularly, the invention provides methods of T cell manufacturing that result in adoptive T cell immunotherapies with improved survival, expansion, and persistence in vivo.

The present disclosure provides synthetic modular polypeptide libraries and nucleic acids encoding such synthetic modular polypeptide libraries. Also provided are methods of making synthetic modular polypeptide libraries and nucleic acids encoding synthetic modular polypeptide libraries. Methods of screening a synthetic modular polypeptide library to identify a selected phenotype associated with a member of a synthetic modular polypeptide library are also provided where such methods find use in both in vitro and in vivo assays.

The present invention relates to a targeting module comprising a chemically synthesized peptide binding moiety specific for a human cell surface protein or protein complex, a kit comprising the targeting module and a vector or a cell comprising a nucleic acid encoding a universal chimeric antigen receptor and the use for the treatment of cancer, infections and autoimmune disorders.

Embodiments of the present disclosure relate to compositions and methods of enhancing lymphocytes' ability to treat cancer patients. Embodiments relate to a polynucleotide comprising a nucleic acid encoding a chimeric antigen receptor (CAR), a nucleic acid encoding an Oxygen-Dependent Degradation domain (ODD), and a nucleic acid encoding one or multiple sequences of Hypoxia-Response Element (HRE).