This invention relates to the production of a population of haemogenic progenitor cells by (i) differentiating a population of induced pluri potent stem cells (IPSCs) into mesoderm cells and; (II) differentiating the mesoderm cells to produce a population of haemogenic progenitor cells. Steps (i) and (ii) are performed without purification or isolation of cells in the population. In addition, the haemogenic progenitor cells may be produced without the use of serum or stromal co-culture. Methods of the invention may be useful for example, in the production of clinical grade blood cells, such as T cells, for use in immunotherapy.

Provided herein are methods of treating cancer in a human subject comprising administering to the subject an effective amount of CYNK cells to the subject so as thereby to provide an effective treatment of the cancer in the subject. The CYNK cells can be placental-derived natural killer (NK) cells or placental CD34+ cell-derived natural killer (NK) cells. The cancers to be treated include multiple myeloma and acute myeloid leukemia. The present invention also provides compositions comprising CYNK cells for the treatment of multiple myeloma and acute myeloid leukemia and methods of their use.

Provided are methods for processing a blood related sample comprising: (a) providing a blood related sample comprising one or more target cells, platelet cells, red blood cells; and (b) reducing a number of the platelet cells in the blood related sample while maintaining a ratio of the red blood cells to the one or more target cells above a critical threshold to produce a reduced platelet blood related sample comprising the one or more target cells. Also described herein are cell compositions produced by applying the methods described herein.

Disclosed herein is a T-helper cell (“T.sub.H-GM” cell) that is regulated by IL-7/STAT5 and which secrete GM-CSF/IL-3. Also disclosed are methods and compositions for modulating T.sub.H-GM function for the treatment of, e.g., inflammatory disorders. Diagnostic and prognostic methods for specifically identifying T.sub.H-GM-mediated inflammatory disorders (e.g., rheumatoid arthritis), as distinct from and/or in addition to non-T.sub.H-GM-mediated (e.g., TNF-α-mediated) inflammatory disorders, are also provided.

A method of treating or preventing a sickle cell disease in a subject in need thereof is disclosed. The method comprising: (a) transplanting immature hematopoietic cells into the subject; and (b) administering to the subject a therapeutically effective amount of an isolated population of non-GVHD inducing anti-third party cells comprising cells having a central memory T-lymphocyte (Tcm) phenotype, the cells being tolerance inducing cells and capable of homing to the lymph nodes following transplantation.

Disclosed herein are new methods of producing a novel line of dendritic cells. The method comprises subjecting a sample of hematopoietic stem/precursor cells to a first feeder culture system that is supplemented with a first set of factors and a second feeder culture system supplemented with a second group of factors. The disclosure also pertains to new cell types that may be used as cancer immunotherapy.

The present invention provides methods of preparing a population of activated T cells by co-culturing T cells with dendritic cells loaded with a plurality of tumor antigen peptides. Also provided are methods of treating cancer in an individual using the activated T cells, pharmaceutical compositions and kits for cell-based cancer immunotherapy.

The invention relates to a method for generation of T cell preparations that are specific for at least one target antigen, comprising the steps of expanding lymphoid cells in vitro in the presence of a target antigen or peptide fragments thereof in an expansion step, isolating cells that secrete interferon gamma and culturing, the cells in the presence of interleukin 2 and interleukin 7 and either an inhibitor of the mTOR Complex 1, or in the presence of an inhibitor of IL-2/IL-2R interaction. The invention further relates to preparations obtained by the method of the invention.

The present invention provides methods of preparing a population of activated T cells by co-culturing T cells with dendritic cells loaded with a plurality of tumor antigen peptides. Also provided are methods of treating cancer in an individual using the activated T cells, pharmaceutical compositions and kits for cell-based cancer immunotherapy.

Provided herein are recombinant nucleic acids encoding chimeric priming receptors that bind ALPG/P, chimeric antigen receptors that bind MSLN, and shRNA that target FAS, PTPN2, and/or TOX. Also provided are systems of chimeric priming receptors that bind ALPG/P, chimeric antigen receptors that bind MSLN, and shRNA that target FAS, PTPN2, and/or TOX, cells expressing such proteins and shRNA, and methods of use thereof.