The present application provides BCMA targeting chimeric antigen receptor (CAR) comprising a BCMA binding region and an intracellular costimulatory domain derived from DAP10. Further provided are engineered immune effector cells (such as NK cells) comprising the chimeric antigen receptors. Pharmaceutical compositions, kits and methods of treating cancer are also provided.

A population of genetically engineered T cells, comprising a disrupted Reg1 gene and/or a disrupted TGFBRII gene. Such genetically engineered T cells may comprise further genetic modifications, for example, a disrupted CD70 gene. The population of genetically engineered T cells exhibit one or more of (a) improved cell growth activity; (b) enhanced persistence; and (c) reduced T cell exhaustion, (d) enhanced cytotoxicity activity, (e) resistant to inhibitory effects induced by TGF-b, and (f) resistant to inhibitory effects by fibroblasts and/or inhibitory factors secreted thereby, as compared to non-engineered T cell counterparts.

The present disclosure relates in some aspects to methods, compositions and uses involving immunotherapies, such as adoptive cell therapy, e.g., T cell therapy, and an immunomodulatory compound, such as a structural or functional analog or derivative of thalidomide and/or an inhibitor of E3-ubiquitin ligase. The provided methods, compositions and uses include those for combination therapies involving the administration or use of one or more immunomodulatory compounds in conjunction with a T cell therapy, such as a genetically engineered T cell therapy involving cells engineered with a recombinant receptor, such as chimeric antigen receptor (CAR)-expressing T cells. Also provided are compositions, methods of administration to subjects, articles of manufacture and kits for use in the methods. In some aspects, features of the methods and cells provide for increased or improved activity, efficacy, persistence, expansion and/or proliferation of T cells for adoptive cell therapy or endogenous T cells recruited by immunotherapeutic agents.

The present application relates to functionally improved third generation BCMA-CARs comprising modified intracellular co-stimulatory domains, which can be used in adoptive cell therapy, e.g., in treatment of diseases and disorders such as cancer.

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.

Provided are antibodies, fragments thereof, chimeric antigen receptors (CARs) and T cell receptors (TCRs) comprising one or more of the dual TACI-BCMA binding domains disclosed herein. Provided are compositions, cells and cell therapies comprising the same. Further provided are methods of treatment.

A T cell bank comprising genetically engineered T cells having one or more of the following features as compared to the non-engineered T cell counterparts: (a) enhanced expansion capacity in culture, (b) enhanced proliferation capacity, (c) reduced apoptosis, and (d) enhanced activation frequencies. Such genetically engineered T cells may comprise (i) a mutated gene involved in cell self-renewal; (ii) a disrupted gene involved in apoptosis; (iii) a disrupted gene involved in regulation of T cell exhaustion; or (iv) a combination of any one of (i)-(iii).

The present invention relates to, inter alia, an engineered cell (e.g., iPSC, IPS-derived NK, or NK cell) comprising a disrupted B2M gene and an inserted polynucleotide encoding one or more of SERPINB9, a fusion of IL15 and IL15R, and/or HLA-E. The engineered cell can further comprise a disrupted CIITA gene and an inserted polynucleotide encoding a CAR, wherein the CAR can be an anti-BCMA CAR or an anti-CD30 CAR. The engineered cell may further comprise a disrupted ADAM17 gene, a disrupted FAS gene, a disrupted CISH gene, and/or a disrupted REGNASE-1 gene. Methods for producing the engineered cells are also provided, and therapeutic uses of the engineered cells are also described. Guide RNA sequences targeting described target sequences are also described.

The disclosure provides antibody molecules that bind to TCR V regions and multispecific molecules comprising said antibody molecules. Additionally, disclosed are nucleic acids encoding the same, methods of producing the aforesaid molecules, pharmaceutical compositions comprising aforesaid molecules, and methods of treating a cancer using the aforesaid molecules.

The present invention relates to an enhanced chimeric antigen receptor and use thereof, including a nucleic acid molecule for encoding a chimeric antigen receptor containing an NKG2D transmembrane region, a corresponding chimeric antigen receptor, a carrier, an immune effector cell, a preparation method and a product thereof, a pharmaceutical composition, pharmaceutical use, and a tumor or cancer treatment method. The present invention has the advantages of high CAR expression efficiency, rapid NK cell proliferation, strong killing ability against tumor cells, high specificity, long duration of killing effect, and the like.