Embodiments disclosed here are production methods and compositions of engineered immune cells, such as B or T lymphocytes, from limited lineage myeloid progenitor cells, or from pluripotent stem cells, or from multilineage hematopoietic progenitor cells comprising the addition of various cell differentiation transcription factors and inhibiting epigenetic histone methylations in said cells.

High-yield mammalian transient expression systems can include a cell culture media (particularly serum free, non-animal derived, and/or chemically defined media) for introducing macromolecules and compounds (e.g., nucleic acid molecules) into cells (e.g., eukaryotic cells). Cells containing such introduced materials can then be cultured in the cell culture media. In particular, the invention allows introduction of nucleic acid molecules (e.g., vectors) into cells (particularly mammalian cells) and expression of proteins encoded by the nucleic acid molecules in the cells. The invention obviates the need to change the cell culture medium each time a different procedure is performed with the cells (e.g., culturing cells vs. transfecting cells). The invention also relates to compositions and kits useful for culturing and transforming/transfecting cells.

Provided is a method of inducing oligodendrocyte precursor cells (OPCs) through direct reprogramming from human somatic cells into which a nucleic acid molecule encoding an Oct4 protein or Oct4 protein-treated human somatic cells. The method of inducing OPCs by treating Oct4-overexpressing human somatic cells with a low molecular weight substance may establish OPCs with high efficiency in a short period of time through direct reprogramming without via neural stem cells, and thus the OPCs are useful as a cell therapeutic agent for an intractable demyelinating disease.

The present specification provides methods for augmenting the antigenic content, especially of tumor-associated antigens (TAA), and immunogenicity of cancer cells; methods for enhancing cross-presentation in dendritic cells, compositions comprising such manipulated cells derived from single cancer patients; and methods of using those compositions as a personal immunotherapeutic product to treat the donor patient's cancer.

High-yield mammalian transient expression systems can include a cell culture media (particularly serum free, non-animal derived, and/or chemically defined media) for introducing macromolecules and compounds (e.g., nucleic acid molecules) into cells (e.g., eukaryotic cells). Cells containing such introduced materials can then be cultured in the cell culture media. In particular, the invention allows introduction of nucleic acid molecules (e.g., vectors) into cells (particularly mammalian cells) and expression of proteins encoded by the nucleic acid molecules in the cells. The invention obviates the need to change the cell culture medium each time a different procedure is performed with the cells (e.g., culturing cells vs. transfecting cells). The invention also relates to compositions and kits useful for culturing and transforming/transfecting cells.

This disclosure relates to methods for expanding inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) and differentiating inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) to inner ear hair cells (e.g., atonal homolog 1 (Atoh1)+ inner ear hair cells) and the use of the inner hear supporting cells and hair cells, e.g., for identifying candidate therapeutic compounds for the treatment of hearing loss and balance loss. Additionally, the methods described herein can be used in the treatment of a subject having hearing loss and balance loss that would benefit from increased proliferation and differentiation of inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells).

The technology described herein is directed to stromal-free methods of T cell differentiation. Also described herein are immune cells differentiated using stromal-free methods and compositions comprising such immune cells. In some embodiments, the immune cells can be genetically modified. In some embodiments, the immune cells or compositions comprising said immune cells can be administered to a patient as a cellular replacement therapy to treat a condition.

In some embodiments, methods of delivering a therapeutically effective amount of an expanded number of tumor infiltrating lymphocytes obtained from tumor remnants to a patient in need thereof, for the treatment of a cancer, are disclosed.

Aspects of the present disclosure are directed to methods and compositions for inducing the generation of cells capable of killing cancer associated fibroblasts at least in part through the generation of ex vivo expanded cord blood cells which are programmed to kill cancer associated fibroblasts. Certain aspects relate to generation of immune cells, including T cell and Natural Killer (NK) cells, for use in targeting cancer cells and cancer associated fibroblasts. Further aspects are directed to gene editing and/or gene silencing of immune checkpoint proteins in therapeutic immune cells.

Disclosed herein are compositions and methods of enhancing stem cell differentiation into beta cells with use of one or more epigenetic modification compounds. The present disclosure also relates to compositions and methods of sorting and enriching the differentiated beta cells. The present disclosure also relates to compositions and methods of irradiating cell population for reducing proliferation.