The present invention provides a chimeric antigen receptor and natural killer cells expressing the same, and particularly, a chimeric antigen receptor (CAR) which includes an intracellular signaling domain including the whole or a portion of an OX40 ligand (CD252), thereby having excellent effects of increasing anticancer activity of immune cells, and immune cells expressing the same.

Recombinant NK cells, and especially recombinant NK-92 cells express a chimeric antigen receptor (CAR) having an intracellular domain of FcRI. Notably, CAR constructs with an intracellular domain of FcRI had a substantially prolonged duration of expression and significantly extended cytotoxicity over time. The CAR may be expressed from RNA and DNA, preferably as a tricistronic construct that further encodes CD16 and a cytokine to confer autocrine growth support. Advantageously, such constructs also enable high levels of transfection and expression of the recombinant proteins and provide a convenient selection marker to facilitate rapid production of recombinant NK/NK-92 cells.

In certain embodiments, this disclosure provides methods to generate DNA, RNA and/or DNA-peptide nanostructures based chimeric antigen receptor (CAR) T cell (engineered T cell) for cancer immunotherapy, and compositions made by these methods.

A Claudin18.2 humanized antibody and application thereof. The antibody contains a chain variable region (CDR) sequence selected from at least one of the following or an amino acid sequence having at least 90% identity therewith: light chain CDR sequences: SEQ ID NOs: 1-3 and 7-9; and heavy chain CDR sequences: SEQ ID NOs: 4-6 and 10-12; The antibody or an antigen-binding fragment thereof have humanized modification. The humanized antibody can specifically target and bind Claudin18.2, has the same in vitro activity as a human-mouse chimeric anti-Claudin18.2 monoclonal antibody, meets the requirements of druggability, and has significantly prolonged in vivo half-life.

Embodiments of the disclosure concern methods and compositions related to T cell receptors directed against breast cancer neoantigens, including immunotherapeutic compositions of any kind. In specific embodiments, the TCRs are identified following particular methods of producing neoantigen-specific T cells, including particular culturing methods.

The present disclosure provides T cell receptors (TCRs) and related binding proteins with high functional avidity against tumor associated antigen p37 from Wilms tumor protein 1 (WT1), T cells expressing such high affinity WT1 specific TCRs, nucleic acids encoding the same, and compositions for use in treating diseases or disorders in which cells overexpress WT1 and/or produce the p37 antigen, such as in cancer.

Compounds, compositions, and methods for use in inhibiting the E3 enzyme Cbl-b in the ubiquitin proteasome pathway are disclosed. The compounds, compositions, and methods can be used to modulate the immune system, to treat diseases amenable to immune system modulation, and for treatment of cells in vivo, in vitro, or ex vivo. Also disclosed are pharmaceutical compositions comprising a Cbl-b inhibitor and a cancer vaccine, as well as methods for treating cancer using a Cbl-b inhibitor and a cancer vaccine; and pharmaceutical compositions comprising a Cbl-b inhibitor and an oncolytic virus, as well as methods for treating cancer using a Cbl-b inhibitor and an oncolytic virus.

An improved method of treating cancers with engineered T cells is described.

The present disclosure provides immune cells genetically modified to produce two antigentriggered polypeptides, each recognizing a different cell surface antigen, wherein the two different cell surface antigens employed are selected from those pairs described herein. The present disclosure further provides systems comprising two antigen-triggered polypeptides (or nucleic acids encoding same), each recognizing a different cell surface antigen, wherein the two different cell surface antigens employed are selected from those pairs described herein. Also provided are method of killing a target cancer cell, using the described genetically modified immune cells and/or systems. The present disclosure also provides poly specific-immune inducing polypeptides including first and second antigen binding domains specific for first and second antigens, respectively, present on the surface of a target cancer cell.

Disclosed are compositions and methods for treating cancers characterized by the presence of solid tumors, which simultaneously target a plurality of targets on cancer cells using single CAR T construct.