Embodiments of the disclosure include methods and compositions directed to targeting of cells that express the long form of Bone marrow stromal cell antigen 2 (BST2) protein, including cancer cells that express the long isoform of BST2. In particular embodiments, monoclonal antibodies or functionally active fragments thereof are utilized to target cells that express the long isoform of BST2. The monoclonal antibodies or functionally active fragments thereof may be utilized by themselves or as part of other entities, such as cells or engineered antigen receptors. The disclosure includes methods of treatment, prevention, and/or diagnosis using the encompassed antibodies or functional fragments thereof.

Provided herein are compositions and methods for altering sensitivity of target cells to killing by γδ T cells.

Provided herein are pharmaceutical compositions, comprising a pharmaceutically acceptable carrier and therapeutically effective amounts of high affinity Natural Killer (haNK) cells and a therapeutic antibody in the form of a combined preparation. Also provided herein are methods for treating cancer by using the pharmaceutical composition comprising the haNK cells and the therapeutic antibody.

The present invention relates to a fusion protein and the use thereof. The fusion protein includes, from N to C terminals, a first moiety, an Fc segment, a linking moiety comprising a moiety selected from a linker and a protein or polypeptide selected from IL2 or scFv, and a substrate moiety of transpeptidase A; the linker includes a sequence selected from the group consisting of (1) (GGGGS)n, wherein when the linking moiety includes the protein or polypeptide and the linker, n≥1; when the linking moiety only includes the linker, n≥3; and (2) (EAAAK)n, n≥1; the substrate moiety includes LPXTG. The fusion protein can be directly connected to cells to enable the cells to have a targeting property, is more simple than an existing method for preparing targeting cells by means of cell transfection, and can also reduce the risk possibly generated by an effector cell genome operation.

The present disclosure provides ex vivo armed T cell (EAT) compositions that comprise multi-specific (e.g., bispecific) antibodies that bind to CDS and at least one additional target antigen (e.g., antigen that is expressed by tumor cells and/or a DOTA label). The EAT compositions of the present technology are useful for adoptive immunotherapy in a subject in need thereof.

Herein are provided anti-CD22 single domain antibodies (sdAb) prepared by immunizing a llama with the extracellular domain of the predominant human CD22 isoform. By constructing a library of the heavy chain repertoire generated, VHH antibodies specific to the immunogen were isolated. The 27 example antibodies initially produced comprise CDR1, CDR2, and CDR3 sequences corresponding, respectively to SEQNOs: 1-3, 4-6, 7-9, 10-12, 13-15, 16- 18, 19-21, 22-24, 25-27, 28-30, 31-33, 34-36, 37-39, 40-42, 43-45, 46-48, 49-51, 52-54, 55- 57, 58-60, 61-63, 64-66, 67-69, 70-72, 73-75, 75-78, and 79-81; and related sequences. Also provided are multivalent antibodies comprising any one of the sdAbs, including bispecific T-cell engagers, bispecific killer cell engagers (BiKEs), and trispecific killer cell engagers (TriKEs). Also described are chimeric antigen receptors (CARs) for CAR-T therapy comprising any one of the aforementioned sdAbs. Uses of these molecules in the treatment of cancer are also described.

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.

Described herein are compositions for delivering single-domain antibodies or antigen-binding fragments thereof to a subject. The single-domain antibodies may be therapeutic agents for treatment of a disease or a condition in the subject, such as a disease or a condition of affecting the lungs of the subject. The compositions comprise enucleated cells that are extensively engineered to produce the single-domain antibodies or antigen-binding fragment thereof, and optionally, contain additional components, such as a targeting moiety, immune system evading moiety, or additional therapeutic agents or adjuvants. Methods of producing the compositions described herein are provided, which involve methods of enucleating a parent cell to obtain the enucleated cell comprising the single-domain antibody or antigen-binding fragment thereof. Also provided are kits and methods for using the compositions described herein to treat the disease or a condition by administering one or more of the compositions to the subject.

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.

Disclosed are compositions and methods for treating autoimmune diseases such as lupus, including immune cells expressing at least a chimeric antigen receptor (CAR) polypeptides that binds CD83 and uses thereof for suppressing and/or killing autoreactive cells in a subject having an autoimmune disease.