The present invention relates to a novel chimeric antigen receptor (CAR) comprising an antigen-binding fragment which binds specifically to PSMA antigen, and a method of manufacturing high-quality CAR T cell products by transfection and/or transduction of T cells therewith, which allows to effectively treat tumors in vivo alone or in combination with pharmaceutical drugs, such chemotherapies, biopharmaceutical drugs, such as antibodies, or small-molecule drugs, such as protein kinase inhibitors.

The present disclosure provides improved compositions for adoptive T cell therapies 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 compositions and methods for enhancing immunity (or immune response). The compositions and methods are particularly useful for potentiating immune response of a lymphoid cell. The compositions and methods are also applicable for treating cancer and other diseases.

Embodiments of the disclosure encompass methods and compositions for producing engineered mesenchymal stem/stromal cells (MSCs). The disclosure concerns large-scale processes for producing MSCs that are engineered to have disruption of expression of one or more genes using CRISPR and also express at least one heterologous antigen receptor. Specific embodiments include particular parameters for the process.

Provided is an antibody, which is capable of specifically binding to a B-cell maturation antigen (BCMA). The provided BCMA antibody is capable of specifically binding to an extracellular fragment of the BCMA and has excellent affinity and specificity; and the antibody is a functional antibody and has the activity blocking binding of the BCMA with its ligand APRIL. Immune cells constructed based on the antibody has an excellent specific killing function for a BCMA-positive tumor cell.

Nucleic acids encoding fusion proteins that contain an unwanted antigen and a leader sequence for cell secretion are described. Also described are expression cassettes, vectors, cells, and cell lines containing the nucleic acids, as well as methods of using the nucleic acids to treat autoimmune, allergic and other diseases and disorders, such as multiple sclerosis.

Methods and systems to reduce neurotoxicity associated with the treatment of CD19.sup.+ B-cell hyperproliferative disorders are disclosed. Neurotoxicity is reduced by the use of agents that protect CD19.sup.+ neurovascular pericytes and/or CD19.sup.+ vSMCs from attack by CD19-targeted therapy, and by modification of CD19-targeted therapy to avoid CD19.sup.+ pericytes and/or CD19.sup.+ vSMCs.

A multispecific nanobodies chimeric antigen receptor and T-cell engager includes an HLA-G nanobody chimeric antigen receptor and a bispecific T-cell engager. The HLA-G nanobody chimeric antigen receptor includes an HLA-G nanobodies unit, a transmembrane domain, and a CD3z signaling domain. The bispecific T-cell engager includes a PD-L1 nanobodies unit and a CD3e nanobody.

The present disclosure provides methods and compositions for genetically modifying lymphocytes, for example T cells and/or NK cells. In some embodiments, the methods include reaction mixtures, and resulting cell formulations, that are created using whole blood, or a component thereof that is not a PBMC, and additionally comprise T cells and recombinant retroviral particles having polynucleotides that encode a CAR. In some embodiments, modified lymphocytes are reintroduced into a subject subcutaneously. In some embodiments, polynucleotides that provide T cells the ability to regulate cell survival and proliferation in response to binding to a CAR, are provided.

Provided are antibodies, and fragments, derivatives, and nanoparticle conjugates thereof, particularly humanized derivatives thereof, which bind to tumor antigens. Also provided are nucleic acid molecules encoding chimeric antigen receptors (CARs) that bind to tumor antigens, polypeptides and CARs encoded by the nucleic acid molecules, vectors and host cells that include the nucleic acid molecules, methods of making the same, and methods for using the same to generate a persisting population of genetically engineered T cells in a subject, expanding a population of genetically engineered T cells in a subject, modulating the amount of cytokine secreted by a T cell, reducing the amount of activation-induced calcium influx into a T cell, providing an anti-tumor immunity to a subject, treating a mammal having a MUC1-associated disease or disorder, stimulating a T cell-mediated immune response to a target cell population or tissue in a subject, and imaging a MUC1-associated tumor.