Disclosed is a method of culturing natural killer cells (NK cells) applied to immunotherapy. More specifically, disclosed are a kit containing a medium for culturing NK cells (NKCM kit) that can efficiently amplify and activate NK cells effective for the treatment of malignant tumors by culturing lymphocytes derived from human peripheral blood, and a method of culturing natural killer cells using the kit. The method for amplifying NK cells of the present invention includes stimulating NK cells with lymphocytes separated from peripheral blood, culturing the NK cells in a medium containing IL-2, IL-12, IL-15, IL-17, IL-18, and IL-21, and isolating the NK cells. Provided is a pharmaceutical composition for cell therapy containing NK cells produced by the method of amplifying NK cells. The pharmaceutical composition for cell therapy is expected to be widely used to treat infections and/or cancer.

Disclosed herein are cells including cells expressing CD24 and related methods of their use and generation. In some embodiments, the cells disclosed herein do not express one or more MHC I and/or MHC II human leukocyte antigens. In some embodiments, the cells are hypoimmunogenic.

The invention provides improved T cell compositions and methods for manufacturing T cells. More particularly, the invention provides methods of T cell manufacturing that result in adoptive T cell immunotherapies with improved survival, expansion, and persistence in vivo.

The present invention relates to antibodies and antigen-binding fragments thereof that bind to PD-1, and to methods of using such antibodies and antigen-binding fragments. For example, the present invention provides humanized anti-PD-1 antibodies and methods of use thereof.

Disclosed herein are methods of cancer treatment comprising administration of a natural killer (NK) cell or cell line in combination with an IL-6 antagonist, such as an antibody to IL-6 or its receptor, especially for treatment of cancer expressing IL-6 receptors and in which checkpoint inhibitory receptors, such as PDL-1 and/or PDL-2 are expressed/upregulated during disease.

This disclosure relates to methods of producing induced pluripotent (iPS), multipotent, and/or lineage-committed stem cells from differentiated cells, maintaining iPS, multipotent, and/or lineage-committed cells in culture, and re-differentiating the iPS and multipotent stem cells into any desired lineage-committed cell type.

Methods of developing genetically engineered immune cells for immunotherapy, which can be endowed with Chimeric Antigen Receptors targeting an antigen marker that is common to both the pathological cells and said immune cells (ex: CD38, CS1 or CD70) by the fact that the genes encoding said markers are inactivated in said immune cells by a rare cutting endonuclease such as TALEN, Cas9 or argonaute.

Embodiments of the disclosure provide methods and compositions that facilitate cancer treatment including at least because they concern therapies that circumvent the tumor microenvironment. In specific embodiments, compositions are utilized for therapy that utilize tumor-infiltrating lymphocytes and/or engineered T cells that are protected from immunosuppression from the tumor microenvironment because they are engineered to have reduced or eliminated expression of transforming growth factor-beta receptor 2 and/or I-cell-Ig-and-ITIM-domain and/or CD7 genes.

Methods, compositions and cells are provided that identify and isolate a population of adult non-embryonic progenitor cells having multilineage potential, physical diameters of about 2 μm to about 8 μm in size or about 4 μm to about 6 μm, and expressing at least one of the stem cell associated genes among Oct-4, KLF-4, Nanog, Sox-2, Rex-1, GDF-3 or Stella. Methods are also provided that identify and isolate populations, which are subsets or subpopulations of progenitor adult stem cells within the population of the adult stem cells which is a heterogeneous population, the methods including contacting the adult stem cells with a ligand specific for at least one of: CD99, tetraspan, ICAM4, full-length MUC1, and truncated MUC1 receptor, in which a presence of a surface protein on the cells that bind to the ligand identifies the population which is the subset of the differentiated progenitor adult stem cells.

Disclosed are chimeric stimulatory receptors (CSRs), cell compositions comprising CSRs, methods of making and methods of using same for the treatment of a disease or disorder in a subject.