Disclosed are methods of inducing formation of a gastric cells and/or a gastric tissue, such as in the form of a gastric organoid. The formation of gastric cells and/or tissue may be carried out by the activating and/or inhibiting of one or more signaling pathways within a precursor cell. Also disclosed are methods for using the disclosed gastric cells, gastric tissues, and/or gastric organoids derived from precursor cells.

A method of generating neural stem cells or motor neurons is disclosed, the method comprising up-regulating a level of at least one exogenous miRNA and/or down-regulating at least one miRNA using an agent which hybridizes to the miRNA in mesenchymal stem cells (MSCs) or down-regulating Related to testis-specific, vespid and pathogenesis protein 1 (RTVP-1).

The present disclosure provides methods and kits for the differentiation of stem cells into relevant liver cell lineages, as well as methods of using the relevant liver cell lineages in screening for a cellular response, a phenotype and in the treatment of a condition. In one embodiment, stem cells are first differentiated into cells of the definitive endoderm lineage, which are differentiated into posterior foregut (PFG) lineage cells by one or more of retinoic acid activators and/or one or more inhibitors of transforming growth factor-β (TGFβ). An additional embodiment provides a method for the differentiation of posterior foregut lineage cells into liver bud progenitors (LB) by one or more activators of TGFβ signalling, and/or one or more modulators of Wnt signalling, and/or one or more activators of cyclic AMP/PKA signaling; and a further embodiment provides a method for the differentiation of liver bud progenitors into hepatic progenitors by one or more inhibitors of TGFβ signalling and/or fibroblast growth factor (FGF) inhibitors and/or one or more Notch inhibitors. Another embodiment discloses the differentiation of hepatic progenitors into hepatocyte-like cells or perivenous hepatocyte-like cells by one or more of Notch inhibitors and/or activators of glucocorticoid signalling and/or one or more activators of insulin signalling and/or one or more of ascorbic acid signalling activators and/or additional factors. Methods and kits for maintaining LB in self renewal state, hepatocyte-like cells in perivenous or periportal state, as well as surface markers for LB and mid/hindgut (MHG) cells are also disclosed.

Disclosed herein are synthetic leathers, artificial epidermal layers, artificial dermal layers, layered structures, products produced therefrom and methods of producing the same.

The present invention relates to the use of umbilical cord blood cells from a donor or patient to provide neural cells which may be used in transplantation. The isolated cells according to the present invention may be used to effect autologous and allogeneic transplantation and repair of neural tissue, in particular, tissue of the brain and spinal cord and to treat neurodegenerative diseases of the brain and spinal cord.

Provided is a method for inducing pancreatic hormone-producing cells from pancreatic progenitor cells efficiently. The method comprises a step of culturing the cells in a culture medium comprising sodium cromoglicate.

Cell populations of intestinal midgut endoderm cells and methods of generating the cells expressing markers characteristic of intestinal endoderm lineage are disclosed. Methods of treating conditions such as diabetes are also disclosed.

The subject matter of the invention is a functional population of human brown adipocytes, in which the expression of UCP1, CIDEA, CPT1B and Bc12 is higher, the expression of Bax is lower and the expression of PPAR-alpha, PGC-1alpha, PGC-1 beta and PRDM16 is similar compared with the corresponding expressions of a population of human white adipocytes. The invention also relates to a method for differentiation of hMADS cells into the functional population of human brown adipocytes, to a method for conversion of a population of human white adipocytes into the functional population of human brown adipocytes, and also to a method of screening for molecules capable of modulating the bodyweight in an individual.

This invention provides a system for efficiently producing differentiated cells from pluripotent cells, such as human embryonic stem cells. Rather than permitting the cells to form embryoid bodies according to established techniques, differentiation is effected directly in monolayer culture on a suitable solid surface. The cells are either plated directly onto a differentiation-promoting surface, or grown initially on the solid surface in the absence of feeder cells and then exchanged into a medium that assists in the differentiation process. The solid surface and the culture medium can be chosen to direct differentiation down a particular pathway, generating a cell population that is remarkably uniform. The methodology is well adapted to bulk production of committed precursor and terminally differentiated cells for use in drug screening or regenerative medicine.

The present invention is directed to therapeutic multifunctional immature dental pulp stem cells (IDPSCs), and IDPSCs multi-lineage compositions. The invention is further directed to the use of IDPSCs and compositions to reduce the risk of and/or treat degenerative diseases or for other medicinal and aesthetic purposes.