It is to provide an immunocompetent cell that expresses regulatory factors of immunocompetent cell immune function and possesses all of proliferative potential, viability, and the ability to accumulate a T cell, and an expression vector of regulatory factors of immune function for generating the immunocompetent cell. An immunocompetent cell expressing a cell surface molecule specifically recognizing a cancer antigen, interleukin 7 (IL-7), and CCL19 is generated. Preferably, the cell surface molecule specifically recognizing a cancer antigen is T cell receptor specifically recognizing the cancer antigen, and the immunocompetent cell is a T cell.

The present invention relates to the field of biotechnology. Specifically, the invention provides antigen-specific T-cell receptors (TCRs). Further, the invention encompasses polynucleotides encoding the same and vectors comprising said polynucleotides. Host cells comprising the molecules of the invention are also provided. Moreover, the invention provides means and methods for diagnostics and therapy, in particular of cancer.

Provided herein are methods for screening for one or more activity of a recombinant receptor, including recombinant receptors containing an extracellular antigen-binding domain and an intracellular signaling domain, such as a chimeric antigen receptor (CAR). The methods include assessing activity of a cell expressing the recombinant receptor based on a detectable expression of a reporter molecule that is responsive to a signal through the intracellular signaling region of the recombinant receptor. In some embodiments, the activity assessed is an antigen-dependent or an antigen-independent activity. In some embodiments, the methods can be used to screen a plurality of reporter cells each containing a nucleic acid molecule encoding a candidate recombinant receptor, e.g. CAR, and assessing such cells or plurality of cells for one or more property or activity. The methods can be high-throughput. Also provided are reporter cells, cell compositions, nucleic acids and kits for use in the methods.

The present disclosure relates to a method for selecting a tumor neoantigenic peptide wherein said method comprises: a step of identifying, among mRNA sequences from cancer cells of a subject, a fusion transcript sequence comprising a transposable element (TE) sequence and an exonic sequence, and including an open reading frame (ORF), and a step of selecting a tumor neoantigenic peptide of at least 8 amino acids, encoded by a part of said ORF of the fusion transcript sequence, wherein said ORF overlaps the junction between the TE and the exonic sequence, is pure TE and/or is non-canonical, and wherein said tumor neoantigenic peptide binds to at least one Major Histocompatibility Complex (MHC) molecule of said subject. The present disclosure also relates to tumor neoantigenic peptide obtained according to the present method, vaccine or immunogenic composition, antibodies and immune cells derived thereof and their use in therapy of cancer.

Provided are recombinant polypeptides that comprise a protein of interest, a protein localization tag, and a protease cleavage site disposed between the protein of interest and the protein localization tag. In certain embodiments, the recombinant polypeptides further comprise a protease, where the protease cleavage site is a cleavage site for the protease. Also provided are nucleic acids that encode the recombinant polypeptides, cells that comprise such nucleic acids, and compositions (e.g., pharmaceutical compositions) that comprise such cells. Methods of regulating cellular localization of a protein of interest, and methods of administering a regulatable cell-based therapy to an individual in need thereof, are also provided.

The present invention relates to T cell receptors (TCR) against cancer/testis antigens NY-ESO-1 and CT83 presented by multiple HLA molecules. The preferred TCRs of the invention deriving from human T cells demonstrates high affinity and antigen specificity in vitro and in vivo. The present invention also relates to the modulation of TCR-T CAR-T cell signaling and functional persistence in cancer immunotherapy.

Genetically modified compositions, such as non-viral vectors and T cells, for treating cancer are disclosed. Also disclosed are the methods of making and using the genetically modified compositions in treating cancer.

Peptides that generate an immune response to glioma-related H3.3 proteins and methods of their use are provided.

The present invention includes compositions and methods for T cell genome editing and screening in vivo. In certain aspects, the invention includes an sgRNA library for genome-scale mutagenesis.

The present disclosure relates generally to modified NK cell compositions and methods of using the modified cell compositions in immunotherapy applications. In embodiments, the modified cell express a chain and a chain. In embodiments, the modified NK cell compositions can be used to treat various cancers.