Provided herein are inhibitory chimeric antigen receptor compositions and cells comprising such compositions. Also provided are methods of using inhibitory chimeric antigen receptors and cells.

A humanized CD 19 antibody, and a chimeric antigen receptor thereof, an immune cell thereof and the use thereof are provided. The humanized CD19 antibody is based on a FMC63 chimeric antibody, which is subjected to humanization modification. A CAR-T and a dual CAR-T cell constructed based on the humanized antibody and the related use thereof are also provided. Compared with a CAR-T cell constructed by using FMC63, the CAR-T cell constructed based on the humanized antibody has higher killing effect and tumor removal ability.

The present disclosure provides a dendric cell tumor vaccine comprising a chimeric antigen receptor for activating the dendritic cell and a tumor antigen. The present disclosure also provides compositions and methods of making the dendritic cell tumor vaccine, and the methods of using the dendritic cell tumor vaccine to treat cancer.

A vector comprising a first polynucleotide encoding a FOXP3 polypeptide and a second polynucleotide encoding a chimeric antigen receptor (CAR), wherein the CAR comprises an antigen recognition domain which specifically binds to a human leukocyte antigen (HLA), wherein the first polynucleotide and the second polynucleotide are operably linked to the same promoter, and wherein the first polynucleotide is upstream of the second polynucleotide.

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 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.

The present invention is directed to chimeric antigen receptor (CAR) compositions and methods of their use in cancer and anti-viral immunotherapy. In particular, the CAR of the invention comprises a costimulatory signal (CSS) domain comprising herpes virus entry mediator protein (HVEM) or a functional fragment or variant thereof. CARs comprising such a HVEM CSS exhibit enhanced effector function.

Provided is a bispecific chimeric antigen receptor targeting CD19 and CD22, which comprises extracellular antigen binding domains of heavy-chain variable regions and light-chain variable regions of anti-CD19 and anti-CD22 antibodies. Further provided is a bispecific CAR-T cell targeting CD19 and CD22.

Aspects of this disclosure relate generally to the use of biomaterials for the in vivo generation of CAR expressing cells. In some embodiments, the biomaterials comprise one or more of a cell recruitment composition, a viral vector, and/or a cell activation agent.

The present invention generally relates to antigen binding receptors capable of specific binding to an Fc domain comprising the amino acid mutation P329G according to EU numbering. The present invention also relates to T cells, transduced with a antigen binding receptor which is recruited by specifically binding to/interacting with the mutated Fc domain of therapeutic antibodies. Furthermore, the invention relates to a kit comprising the transduced T cells of the invention and/or nucleic acid molecules, vectors encoding the antigen binding receptors of the present invention and tumor targeting antibodies comprising a mutated Fc domain.