The invention relates to differentiation methods for progenitor cells, e.g. mammalian epithelial stem cells, differentiation media for use in said methods, organoids and cells obtainable by said methods and uses, including therapeutic uses, thereof.

Disclosed are methods for making a vascularized hollow organ derived from human intestinal organoid (HIOs). The HIOs may be obtained from human embryonic stem cells (ESC's) and/or induced pluripotent stem cells (iPSCs), such that the HIO forms mature intestinal tissue. Also disclosed are methods for making a human intestinal tissue containing a functional enteric nervous system (ENS).

The invention provides for methods of differentiating pancreatic endocrine cells into pancreatic beta cells expressing PDX1, NKX6.1, MAFA, UCN3 and SLC2A. These pancreatic beta cells may be obtained by step-wise differentiation of pluripotent stem cells. The pancreatic beta cells exhibit glucose-dependent mitochondrial respiration and glucose-stimulated insulin secretion similar to islet cells.

Disclosed are methods for making a vascularized hollow organ derived from human intestinal organoid (HIOs). The HIOs may be obtained from human embryonic stem cells (ESC's) and/or induced pluripotent stem cells (iPSCs), such that the HIO forms mature intestinal tissue. Also disclosed are methods for making a human intestinal tissue containing a functional enteric nervous system (ENS).

A method for culturing primary cells of gastric cancer and gallbladder cancer and cholangiocarcinoma and auxiliary reagents. A method for culturing primary cells of gastric cancer and gallbladder cancer and cholangiocarcinoma and auxiliary reagents. The core of the technology is that: (1) the solid tumor tissues of gastric cancer and gallbladder cancer and cholangiocarcinoma are treated with a mild cell dissociation reagent, and the primary tumor cells of gallbladder cancer and cholangiocarcinoma in a bile sample are isolated by a mild method to ensure the vitality of cancer cells to the greatest extent; (2) a special serum-free medium is prepared, and tumor cells of gastric cancer and gallbladder cancer and cholangiocarcinoma are cultured in vitro by a suspension culture system to eliminate the interference of normal cells to the greatest extent while ensuring normal amplification of cancer cells.

The invention relates to differentiation methods for progenitor cells, e.g. mammalian epithelial stem cells, differentiation media for use in said methods, organoids and cells obtainable by said methods and uses, including therapeutic uses, thereof.

Provided is a new type serum-free medium. The medium comprises: DMEM with high glucose (the content of glucose being 4.5 g/L), B27, recombinant human basic fibrolast growth factor (b-FGF), nicotinamide, N-2, vinblastine III (conophylline), non-essential amino acid (NEAA), heparin, epidermal growth factor (EGF), hepatocyte growth factor (HGF), a serum replacement (SR), an insulin-transferrin-selenium complex (ITS), and pentagastrin. Inducing differentiation of mesenchymal stem cells into insulin-secretion-like cells can be achieved in six days in one step using the medium.

Liver metabolism studies are limited by the inability to expand primary hepatocytes in vitro while maintaining their metabolic functions. Human hepatic three dimensional organoids have been established for use in these studies, but hepatic organoids from adult donors had impaired expansion. Methods of achieving expansion of adult donor-derived hepatic organoids (HepAOs) and HepG2 cells (HepGOs) from single cells in organoid cultures using combinations of growth factors and small molecules are described, with assessment of expansion dynamics, gluconeogenic and HNF4α expression, and albumin secretion. The invention discloses conditions including limiting A8301 and incorporating FSK and OSM to allow the expansion of HepAOs from adult donors and HepGOs with gluconeogenic competence. These models increase the repertoire of human hepatic cellular tools available for use in liver metabolic assays.

Described herein are methods for providing an in vitro intestinal model system, e.g., using primary cells instead of cell lines and/or cancerous cells.

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.