A T cell antigen receptor, an immune cell for expressing the T cell antigen receptor (TCR) and a preparation method and use thereof. The TCR disclosed in the present invention can be specifically activated by virus antigen peptide presenting cells, so that the release level of extracellular cytokines IFNγ and IL2 and the release amount of lactate dehydrogenase are improved, and target cells are significantly killed.

Provided is a T lymphocyte. The T lymphocyte co-expresses a fusion protein and a chimeric antigen receptor, and the chimeric antigen receptor identifies a tumor antigen, herein the chimeric antigen receptor includes: an extracellular region; a transmembrane region, herein the transmembrane region is connected to the extracellular region, and embedded into a cell membrane of a transgenic lymphocyte; and an intracellular region, herein the intracellular region is connected to the transmembrane region, and the intracellular region includes an immune co-stimulatory molecule intracellular segment. The fusion protein includes: an immune checkpoint single-chain antibody and a T cell activation molecule.

The present invention aims to increase cytotoxic activity of an immunocompetent cell to thereby enhance a therapeutic effect against diseases such as cancers, and provides an immunocompetent cell having decreased diacylglycerol kinase activity, which cell expresses a fusion protein including IL-15 and an IL-15 receptor α subunit, and which cell expresses a chimeric antigen receptor.

The invention provides antigen binding domains that bind myeloid cell surface antigen CD33 protein comprising the antigen binding domains that bind CD33, polynucleotides encoding them, vectors, host cells, methods of making and using them.

The present disclosure generally relates to, inter alia, recombinant immune cells that have been engineered to express elevated levels of one or more glucose transporters, and particularly relate to engineered immune cells exhibiting increased glycolytic flux and/or enhanced effector functions. Also provided are methods for generating a population of 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.

Provided is an engineered immune cell. The expressions of at least one MHC related gene and at least one NK activating receptor binding molecule are suppressed or silenced, so as to suppress the killing of the engineered immune cell by NK cells. Also provided are a pharmaceutical composition comprising the engineered immune cell and use of the engineered immune cell in preparation of drugs for treatment of cancer, infection, or autoimmune diseases.

The invention relates to therapeutic compositions for allogeneic cellular therapy comprising TCR deficient T-cells, which are genetically engineered to express immune cell engagers, and methods related thereto.

Provided herein are D domain containing polypeptides that specifically bind targets of interest, as are nucleic acids encoding the D domain containing polypeptides, vectors containing the nucleic acids and host cells containing the nucleic acids and vectors. Also provided herein are methods of making and using the D domain containing polypeptides, nucleic acids, vectors and host cells, for example, but not limitefd to, in diagnostic and therapeutic applications. Also provided herein are multi-functional chimeric antigen receptor (CAR)-based compositions and Adapters and their use in methods of directing immune responses to target cells. In some embodiments, the methods include the use of a CAR expressing cell in combination with an Adapter. The Adapter confers the ability to modulate, alter, and/or direct CAR expressing cell-mediated immune response in vitro and in vivo.

The invention provides CARs (CARs) that specifically bind to BCMA (B-Cell Maturation Antigen). The invention further relates to engineered immune cells comprising such CARs, CAR-encoding nucleic acids, and methods of making such CARs, engineered immune cells, and nucleic acids. The invention further relates to therapeutic methods for use of these CARs and engineered immune cells for the treatment of a condition associated with malignant cells expressing BCMA (e.g., cancer).

The present invention relates to a polypeptide encoding a SLAMF7-binding chimeric antigen receptor (CAR), a polynucleotide encoding the SLAMF7-binding CAR polypeptide, a recombinant immune cell (preferably recombinant lymphocyte, more preferably recombinant T cell) comprising the polynucleotide, a method for producing recombinant immune cells and a pharmaceutical composition comprising recombinant immune cells. The recombinant immune cells and the pharmaceutical composition of the present invention may be used in methods for treating cancer in a patient thereby providing an improved treatment regimen. The inventors of the present application demonstrated that SLAMF7 CAR T-cells prepared by Sleeping Beauty gene transfer confer superior anti-myeloma efficacy in vivo compared to SLAMF7 CAR T-cells prepared by lentiviral gene transfer. Hence, SLAMF7 CAR T-cells that are prepared by virus-free SB gene transfer possess greater anti-myeloma efficacy and therapeutic potential, which leads to significantly improved clinical activity, and significantly improved clinical outcome.