The generation of antigen specific T cells by controlled ex vivo induction or expansion can provide highly specific and beneficial T cell therapies. The present disclosure provides T cell manufacturing methods and therapeutic T cell compositions which can be used for treating subjects with cancer and other conditions, diseases and disorders personal antigen specific T cell therapy.

Provided herein are methods for ex vivo expansion of a T cells including tumor-reactive T cells, and compositions containing such T cells. Also provided are methods for treating diseases and conditions such as cancer using compositions of the present disclosure.

A composition for inducing and/or amplifying T.sub.SCM in vitro, a culture medium including the composition, and a method for inducing and/or amplifying T.sub.SCM in vitro are provided, wherein the composition comprises inducing agents including IL-7 and IL-21. The chimeric antigen receptor T-memory stem cells induced differentiated and amplified by adding the composition can be used directly for reinfusion therapy of patients.

The preset disclosure provides methods of culturing TILs in a medium comprising at least about 30 mM to at least about 100 mM potassium ion. In some aspects, the methods disclosed herein enhance expansion of CD8.sup.+ TILs, relative to CD4.sup.+ TILs. In some aspects, the methods further increase the number of less-differentiated cells, e.g., less-differentiated TILs, in the population of cells. In some aspects, the methods disclosed herein enrich for tumor-reactive, e.g., tumor specific, TILs such that clonal diversity is preserved. In some aspects, the cells, e.g., the TILs, are administered to a subject in need thereof.

[00001]$17667030.1$

The invention provides methods of making immune effector cells (e.g., T cells, NK cells) that can be engineered to express a chimeric antigen receptor (CAR), and compositions and reaction mixtures comprising the same.

The present invention relates to, inter alia, an engineered cell (e.g., iPSC, IPS-derived NK, or NK cell) comprising a disrupted B2M gene and an inserted polynucleotide encoding one or more of SERPINB9, a fusion of IL15 and IL15Rα, and/or HLA-E. The engineered cell can further comprise a disrupted CIITA gene and an inserted polynucleotide encoding a CAR, wherein the CAR can be an anti-BCMA CAR or an anti-CD30 CAR. The engineered cell may further comprise a disrupted ADAM17 gene, a disrupted FAS gene, a disrupted CISH gene, and/or a disrupted REGNASE-1 gene. Methods for producing the engineered cells are also provided, and therapeutic uses of the engineered cells are also described. Guide RNA sequences targeting described target sequences are also described.

The present invention relates to: a method for producing immunocytes, specifically induced natural killer T (iNKT) cells that are induced by direct reprogramming of isolated somatic cells, and chimeric antigen receptor (CAR)-iNKT cells into which a CAR gene encoding a CAR is introduced; iNKT cells produced by the method; and a cell therapy composition and a pharmaceutical composition for preventing or treating cancer, comprising the iNKT cells.

The method according to the present invention can produce, through direct reprogramming, iNKT cells or iNKT cells into which a CAR gene is introduced, from isolated cells so as to simplify the production process and shorten production time, thereby reducing costs, to have excellent NKT cell production efficiency, and to ensure safety according to the production without passing through induced pluripotent stem cells, thereby having an excellent NKT cell production effect distinguished from that of a conventional reprogramming technique. In addition, the iNKT cells or iNKT cells into which a CAR gene is introduced, which are produced by the method, have an excellent cancer cell killing ability, and thus can be effectively used as a cell therapy composition or a pharmaceutical composition for preventing or treating cancer.

The disclosure relates to methods of culturing and expanding CD4+ and/or CD8+ T cells in culture. In some embodiments, the methods include expanding, proliferating and storing lymphocytes in tissue culture by exposing the lymphocytes to a combination of cytokines and/or nucleic acids expressing cytokines or functional fragments or variants thereof. The disclosure further relates to methods of generating and manufacturing CD4+ and/or CD8+ T cells that are specific to one or a plurality of viral antigens.

This document provides methods and materials for expanding antigen-specific T cells (e.g., antigen-specific CD4.sup.+ T cells and/or antigen-specific CD8.sup.+ T cells) in culture. For example, methods and materials for performing a polyclonal stimulation step for a particular duration (e.g., from about 1 hour to about 48 hours) to increase the expansion of T cells having a desired antigen specificity are provided.

The present disclosure relates to methods that include the use of a first multi-chain chimeric polypeptide and a second multi-chain chimeric polypeptide for stimulating the NK cells, inducing or increasing proliferation of the NK cells, inducing differentiation of the NK cells, and treating a subject in need thereof using activated NK cells.