A method for producing natural killer cells is disclosed. The method comprises isolating peripheral blood mononuclear cells (PBMCs) from a blood sample; isolating at least one of CD56+ cells and/or CD3/CD56+ cells from the PBMCs; and co-culturing the at least one of CD56+ cells and/or CD3/CD56+ cells with a combination of feeder cells in the presence of a cytokine. A composition for treating cancer is also disclosed. The composition comprises the CD56+ natural killer cells produced by the disclosed method and a cytokine.

This invention provides methods of generating natural killer (NK) cells and dendritic cells (DCs). The methods utilize human hemangioblasts as intermediate cells to generate the NK cells and DCs. In various embodiments, the methods do not require the use of stromal feeder layers.

This invention relates to a medium system and a method for ex vivo expansion of natural killer (NK) cells. This invention directly cultures Ficoll-separated PBMC by using immobilized anti-CD137 and RetroNectin, and uses OK-432 as a biological effector under the co-existence of GM-CSF, IL-4, IL-2, IL-15, and IL-21 for ex vivo activation and proliferation of NK cells, creating an efficient method for ex vivo expansion of NK cells. The expression rate of NK cells CD3-CD16+/CD56+ prepared by the method is as high as 92.5% or more. After 14 days of culture, NK cells can be expanded 1000 to 2000 times and have strong in vitro cytotoxic activity.

The disclosure provides methods and compositions for affecting the development of antigen presenting cell (APC, e.g., a macrophage or dendritic cell). The methods include maturing an APC, promoting anti-inflammatory phenotype, promoting development of a T regulatory cell (Treg) from a naive T cell. The methods generally include exposing an APC to a tryptophan derived microbiota metabolite (TDMM), such as an anti-inflammatory or pro-mucosal TDMM, and permitting the APC to mature. In some embodiments, the conditioned APC is exposed to a naive T cell to further promote development of a T regulatory cell (Treg). In some embodiments, the TDMM is selected from the group consisting of indole, indole-3-acetate, 5-hydroxyindole, and indole-3-pyruvate.

Disclosed is a method of producing non-exhausted immature dendritic cells (DCs) originating front at two different, allogeneic donors. In the method, a mixture of allogeneic leukocytes, which allogeneic leukocytes have been obtained from at least two different, allogeneic donors is provided. Subsequently, allogeneic monocytes are isolated from the mixture of allogeneic leukocytes. Thereafter, non-exhausted immature DCs are generated from said isolated allogeneic monocytes.

Provided herein are methods and compositions for dynamically controlling and targeting multiple arms of the immune system. Some aspects provide mesenchymal stem cells (MSCs) engineered to produce multiple effector molecules. In some instances, each effector molecule modulates a different cell type of the immune system or different functions of a cell. Also provided herein are methods of using the MSCs to treat or alleviate symptoms of inflammatory bowel disease (IBD), for example.

The present invention relates to an expanded population of human Breg cells having the phenotype CD19+CD73CD71+CD25+TIM-1+ and methods for producing the cell population of the invention. The invention also relates to pharmaceutical compositions comprising the cell populations of the invention and their use in the treatment of immune-mediated disorders.

A method for producing natural killer cells is disclosed. The method comprises isolating peripheral blood mononuclear cells (PBMCs) from a blood sample; isolating at least one of CD56+ cells and/or CD3/CD56+ cells from the PBMCs; and co-culturing the at least one of CD56+ cells and/or CD3/CD56+ cells with a combination of feeder cells in the presence of a cytokine. A composition for treating cancer is also disclosed. The composition comprises the CD56+ natural killer cells produced by the disclosed method and a cytokine.

The present disclosure generally relates target cancer cell specific immunotherapy compositions, methods of making and use thereof. Also provided in the disclosure are methods of treating a cancer in a subject in need thereof.

It is an object of the present invention to provide a method for efficiently producing a B cell population comprising B cells that recognize a specific antigen. According to the present invention, provided is a method for producing a B cell population, comprising: a step (c) of culturing a cell population comprising B cells together with a specific antigen in the absence of IL-21, in the absence of IL-4, and in the presence of a cytokine other than IL-21 and IL-4, while giving stimulation mediated by CD40 and a BAFF receptor to the cells; and a step (d) of culturing the cell population comprising B cells, while giving stimulation mediated by has to the cells, so as to obtain a B cell population comprising B cells that recognize the specific antigen.