The invention relates to nucleic acid agents modulating the expression of SLAMF6 isoforms, compositions comprising same and methods for their use in immunomodulation. Specifically, provided are splice-switching oligonucleotides and constructs useful in cancer immunotherapy.

The present invention provides isolated T cell receptors (TCRs) that specifically bind to an HLA-displayed cancer testis antigen Melanoma-Associated Antigen A4 (MAGE-A4) peptide, as well as therapeutic and diagnostic methods of using those isolated TCRs. The present invention provides T cell receptors (TCRs) that were generated against a MAGE-A4 peptide antigen in the context of MHC (HLA-A2). The unique TCR sequences identified have shown specific binding to the small peptide MAGE-A4 presented in the groove of an HLA molecule and exhibited activation of T cells in a reporter assay.

Described herein are immune cells comprising: a T-cell receptor (TCR) and a chimeric stimulating receptor (CSR) that comprises (i) a ligand-binding module that is capable of binding or interacting with a target ligand; (ii) a transmembrane domain; and (iii) a CD30 costimulatory domain, in which the CSR in the immune cells lacks a functional primary signaling domain. Also provided herein are methods of using the same or components thereof (e.g., the CSR) for therapeutic treatment of cancers (e.g., solid tumor cancers).

Provided are methods for isolating T-cells with T cell receptors (TCRs) optimized for reactivity to specific peptides and decreased cross-reactivity to non-target peptides. Advantageously, TCRs of the invention can be optimized to target cancer antigens and peptides while having reducing reactivity to healthy cells. Methods of the invention utilize a novel combination of culturing conditions that increase T-cell activation and allow for validation of TCR activity. Culturing conditions of the invention further reduce culturing times generally needed to achieve expanded reactive T-cells. Because of the robust nature of the activation and validation conditions of the present invention, variants of identified TCRs can also be optimized and validated for their response to peptides, including cancer peptides.

The present disclosure provides methods of producing a modified immune cell responsive to orthogonal cytokine signaling and a modified immune cell produced by said method. The present disclosure further provides a modified immune cell responsive to orthogonal cytokine signaling and methods for treating cancer comprising the modified immune cell.

Provided are methods for isolating T-cells with T cell receptors (TCRs) optimized for reactivity to specific peptides and decreased cross-reactivity to non-target peptides. Advantageously, TCRs of the invention can be optimized to target cancer antigens and peptides while having reducing reactivity to healthy cells. Methods of the invention utilize a novel combination of culturing conditions that increase T-cell activation and allow for validation of TCR activity. Culturing conditions of the invention further reduce culturing times generally needed to achieve expanded reactive T-cells. Because of the robust nature of the activation and validation conditions of the present invention, variants of identified TCRs can also be optimized and validated for their response to peptides, including cancer peptides.

Provided are methods for isolating T-cells with T cell receptors (TCRs) optimized for reactivity to specific peptides and decreased cross-reactivity to non-target peptides. Advantageously, TCRs of the invention can be optimized to target cancer antigens and peptides while having reducing reactivity to healthy cells. Methods of the invention utilize a novel combination of culturing conditions that increase T-cell activation and allow for validation of TCR activity. Culturing conditions of the invention further reduce culturing times generally needed to achieve expanded reactive T-cells. Because of the robust nature of the activation and validation conditions of the present invention, variants of identified TCRs can also be optimized and validated for their response to peptides, including cancer peptides.

The invention relates to cancer management, specifically to therapeutic combinations and methods for immunotherapy of tumors and malignancies. More specifically, embodiments of the invention provide compositions, methods, pharmaceutical packages and combined preparations employing the use of a SLAMF6-mediated T cell activator in combination with a LAG3 inhibitor.

Aspects of the present disclosure relate to methods and compositions related to the preparation of immune cells, including engineered immune cells. Certain embodiments of the disclosure include compositions, cells, and methods related to engineered invariant natural killer T (iNKT) cells for off-the-shelf use for clinical therapy. The iNKT cells may be produced from hematopoietic stem progenitor cells and may be suitable for allogeneic cellular therapy because they are HLA negative. In some aspects, the cells have imaging and suicide targeting capabilities.

The present disclosure provides signal transducer and activator of transcription (STAT)-activated macrophages, compositions comprising STAT-activated macrophages, methods of making STAT-activated macrophages, and methods of treating diseases, e.g., cancer, by administering a therapeutically effective amount of STAT-activated macrophages.