Compounds that either produced a higher proportion or greater absolute number of phenotypically identified naive, stem cell memory, central memory T cells, adaptive NK cells, and type I NKT cells are identified. Compositions and methods for modulating immune cells including T, NK, and NKT cells for adoptive cell therapies with improved efficacy are provided.

Provided methods of obtaining a plurality of T cell receptors specifically recognizing a target tumor antigen peptide from an individual that has clinically benefitted from an immunotherapy, such as Multiple Antigen Specific Cell Therapy. Also provided tumor-specific TCRs, engineered immune cells expressing the TCRs and methods of treating a disease using the engineered immune cells.

Circular RNA, along with related compositions and methods are described herein. In some embodiments, the inventive circular RNA comprises group I intron fragments, spacers, an IRES, duplex forming regions, and an expression sequence. In some embodiments, the expression sequence encodes an antigen. In some embodiments, circular RNA of the invention has improved expression, functional stability, immunogenicity, ease of manufacturing, and/or half-life when compared to linear RNA. In some embodiments, inventive methods and constructs result in improved circularization efficiency, splicing efficiency, and/or purity when compared to existing RNA circularization approaches.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.

The invention provides a natural killer (NK) cell engineered to express a chimeric antigen receptor (CAR), wherein the CAR comprises the extracellular domain of CD27 or a CD70-binding portion thereof, as well as compositions comprising the engineered NK cell, methods for producing the engineered NK cell, and therapeutic applications of the engineered NK cell, such as for treating neoplastic diseases.

Provided herein are recombinant nucleic acids encoding a T cell receptor (TCR) fusion protein (TFP) and an interleukin-15 (IL-15) polypeptide and/or an interleukin-15 receptor alpha (IL-15R?) polypeptide, modified T cells expressing the encoded molecules, and methods of use thereof for the treatment of diseases, including cancer.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.

The present disclosure is directed to the TNF-related apoptosis inducing ligand (TRAIL) fusions with positively charged proteins, neutrophils engineered to express and secrete such fusions in the context of neutrophil extracellular traps, and methods of use thereof in the treatment of cancer.