Provided is an excellent method for producing an IL-4 non-secreting and IFN-γ secreting (Th1-type) or IFN-γ non-secreting and IL-4 secreting (Th2-type) CD4 single-positive T cell (CD4SP T cell). The method for producing the Th1-type or Th2-type CD4SP T cell of the present invention comprises a step of inducing a CD4 single-positive T cell from a hematopoietic stem cell (HSC) and/or a hematopoietic progenitor cell (HPC) substantially defective in a factor involved in IL-4 secretion or a factor involved in IFN-γ secretion.

The present disclosure relates generally to culture media formulations and culture methods. More particularly, the present disclosure provides defined serum-free culture media, kits and methods for generating progenitor T cells and derivatives thereof, including mature T cells. The present disclosure further provides the cells generated using the media, kits and methods, as well as methods of treatment using the generated cells.

Disclosed is a chimeric antigen receptor with improved persistency.

Provided herein are genetically engineered mammalian stem and progenitor cells that have increased potential to differentiate into regulatory T cells. Also provided are methods of making and use thereof.

Provided is a non-naturally occurring T population, of which the proportion of T memory stem cells satisfies C1≥50%. The T cell population comprises a tumor antigen-targeting universal CAR-T cell. Further provided is a method for preparing the CAR-T cell. The CAR-T cell is higher in amplification rate and better in phenotype, IFN-gamma releasing capacity and target cell killing capability.

Provided herein are methods and compositions for dynamically controlling and targeting multiple immunosuppressive mechanisms in cancer. Some aspects provide cells engineered to produce multiple effector molecules, each of which modulates a different immunosuppressive mechanisms of a tumor, as well as methods of using the cells to treat cancer, such as ovarian, breast, or colon cancer.

The present invention aims to solve a problem in T-cell transfer therapy and the like, which is T-cell exhaustion, and to provide a technique to enhance T cell activity. T cells having cell surface markers of CD45RA.sup.+ and CCR7.sup.+ can be produced by culturing activated T cells in the presence of (a) a conditioned medium derived from stromal cells or (b) CXCL12.

Embodiments of the disclosure concern methods and compositions for immunotherapy for human papillomavirus infection and diseases associated therewith. In specific embodiments, methods concern production of immune cells that target one or more antigens of HPV16 and/or HPV18, including methods with stimulation steps that employ IL-7 and IL-15, but not IL-6 and/or IL-12. Other specific embodiments utilize stimulations in the presence of certain cells, such as costimulatory cells and certain antigen presenting cells.

Disclosed is a chimeric antigen receptor with improved persistency.

Methods for preparing T cells or NK cells expressing a chimeric antigen receptor (CAR) is described. The methods entail: isolating a population of T cells, generating induced pluripotent stem cells (iPSCs) from the T cells, introducing a nucleic acid molecule encoding a CAR into the iPSCs to create CAR iPSCs; and differentiating the CAR iPSCs into CAR T cells or CAR NK cells.