A cell culture medium comprising adenosine triphosphate; a carrier protein; cholesterol, linoleic acid, and lipoic acid; glutathione; at least one nucleotide salvage pathway precursor base; phosphoethanolamine; selenium; transferrin; triiodothyronine; all-trans-retinoic acid (ATRA) and vitamin C; zinc, magnesium, and copper; an agent that increases intracellular cAMP; epidermal growth factor (EGF); hydrocortisone; insulin; and charcoal stripped fetal bovine serum, wherein said cell culture medium is substantially free, if not entirely free, of vitamin D, androgenic hormones, androgenic ligands, estrogenic hormones, estrogenic ligands, and/or androgenic receptors.

The presently disclosed subject matter provides for in vitro methods of inducing differentiation of human stem cells into neural crest, cranial placode or non-neuro ectoderm precursors, and cells generated by such methods. The presently disclosed subject matter also provides for uses of such cells for treating neurodegenerative and pituitary disorders.

The invention relates to improved culture methods for expanding epithelial stem cells and obtaining organoids, to culture media involved in said methods, and to uses of said organoids.

Provided are compositions for long-term maintenance of functional hepatocytes in culture, a method for improved maintenance of functional hepatocytes in vitro, and functional hepatocytes cultures according to the methods. The culture compositions include at least: one activator of adenylate cyclase, one TGFβ inhibitor, one Notch inhibitor, one Wnt inhibitor, and/or one BMP inhibitor. The combinations of compounds are added to any hepatocyte cell culture medium in an effective amount to maintain functional hepatocyte function in vitro, long term. The hepatocytes can be used for in vitro drug research and to model liver disease.

A method for inducing non-hepatocytes into hepatocyte-like cells, wherein the non-hepatocytes are induced to express or overexpress hepatic fate conversion and maturation factors, cultured in somatic cell culture medium, hepatocyte expansion culture medium and 2C medium for a sufficient period of time to convert the non-hepatocyte cell into cells with hepatocyte-like properties, are provided. The iHeps induced according to the methods are also provided.

A reagent for differentiating somatic cells into alveolar epithelial cells includes an NK2 homeobox family gene expression vector, and a Fox family gene expression vector, a method for manufacturing alveolar epithelial cells, the method including forcing a somatic cell to express an NK2 homeobox family gene and a Fox family gene and culturing the somatic cell after forced expression, an alveolar epithelial cell manufactured by the manufacturing method, and a cell medicine including the alveolar epithelial cell.

The present invention relates to a method for ex vivo generating and expanding γδ Foxp3.sup.+ regulatory T cells, and therapeutic uses thereof. The inventors performed the induction of Foxp3+ expression in ex vivo human induced tumor-antigen specific CD4− TCRγδ unrestricted T cells and the induction of autologous CD8-mediated T-cell responses against tumor-antigen specific FOXP3 expressing CD4+ TCRγδ unrestricted T cells. The inventors developed a method to ex vivo generated and expanded antigen specific Foxp3 expressing CD3+ TCRγδ+ unrestricted T cells, committed to exclusively exert regulatory activity, whichever culture condition of stimulation is. In particular, the present invention relates to a method for generating ex vivo γδ Foxp3+ regulatory T cells having the following phenotype: CD3+ TCRγδ+ Foxp3+.

The present invention relates to oligonucleotides that are capable of inducing expression of ubiquitin-protein ligase E3A (UBE3A) from the paternal allele in animal or human neurons. The oligonucleotides target the suppressor of the UBE3A paternal allele by hybridization to SNHG14 long non-coding RNA downstream of SNORD109B. The present invention further relates to pharmaceutical compositions and methods for treatment of Angelman syndrome.

Human pluripotent stem cells are differentiated in vitro into oligodendro-spheroids comprising oligodendrocytes for use in analysis, screening programs, and the like.

Provided is a method for inducing differentiation of neural crest cells into neurons of the autonomic nervous system, the method including the step of culturing neural crest cells in the presence of at least one of a BMP signaling pathway activator, an SHH signaling pathway inhibitor, and a Wnt signaling pathway inhibitor.