A method of direct transdifferentiation of somatic cells into other somatic cells may be convenient and still have good reproducibility, excellent production efficiency, and short performed time. Methods for direct transdifferentiation of somatic cells into other somatic cells may include: (a) introducing a GLIS family gene, a mutated GLIS family gene or a gene product thereof into somatic cells; and (b) culturing the gene-introduced somatic cells in a culture medium containing a component that induces differentiation of the somatic cells or precursor cells of the somatic cells into other somatic cells.

The present disclosure concerns a cell or tissue culture system comprising a solid support for the culture of adherent cells or adherent tissues and a plurality of cationic dendrimers associated to the surface of the solid support. Each cationic dendrimer includes one or more functional amine group. The cationic dendrimer is protonated at physiological pH. The cell or tissue culture system can be used for the culture of adherent cells or tissues and be used for the differentiation of stem cells.

A mesenchymal stem cell culture product and a method for preparing the same are provided. The method for preparing the mesenchymal stem cell culture product includes the following steps. A predetermined quantity of mesenchymal stem cells is seeded in a flat culture device containing a first cell culture medium. When the mesenchymal stem cells proliferate to a target quantity, the first cell culture medium is replaced with a second cell culture medium, and the second cell culture medium is removed after incubation for 18 to 30 hours. A target cell culture medium is added and incubated for 48 to 72 hours. The target cell culture medium is collected repeatedly. The collected target cell culture medium is filtered and concentrated to obtain the mesenchymal stem cell culture product.

The present invention provides, in order to prepare matured hepatocytes analogous in various points to primary hepatocytes, a method for preparing hepatocytes or cells that can be differentiated into hepatocytes from pluripotent stem cells, comprising the steps of: (1) culturing the pluripotent stem cells in a medium containing an activator of an activin receptor-like kinase-4,7; (2) culturing the cells obtained in the step (1) in a medium containing a bone morphogenetic factor and a fibroblast growth factor; (3) culturing the cells obtained in the step (2) in a medium containing an activator of a hepatocyte growth factor receptor and an activator of an oncostatin M receptor; and (4) culturing the cells obtained in the step (3) to obtain hepatocytes or cells that can be differentiated into hepatocytes, wherein in at least one of the steps (2), (3) and (4), cells are cultured on a high-density collagen gel membrane.

There is described herein a cell culture medium comprising: a basal medium; an antibiotic; B27; Noggin; Y-27632; Human FGF10 or FGF7; preferably wherein there is an absence of a Wnt agonist. Methods and uses of the medium is also described.

Provided is a culture medium containing amphiregulin for culturing primary breast epithelial cells and a culture method involving using the medium. In the culturing method, primary cells are cultured on a culture vessel coated with an extracellular matrix gel by using the culture medium, and the primary cells grow on the culture vessel, which has been coated with the extracellular matrix gel, and proliferate rapidly under the combined action of nutrient factors and an extracellular matrix contained in the primary cell culture medium. The cell model obtained by the primary cell culture medium and the primary cell culture method can be used for the evaluating the efficacy of and screening drugs.

The present invention provides a new method related to regenerative medicine for the treatment of cartilage disorders, osteoarthritis and cartilage injury in particular. More particularly, it relates to an FGF-18 compound for use in tissue engineering and graft procedures, such as osteochondral or cartilage transplantation or autologous chondrocyte implantation (ACI).

The present disclosure provides systems for growing and, modeling lung cells in organoid cultures and methods of using same.

Provided is a method for isolating a ureteric bud tip cell from cells, a tissue, or an organoid comprising the ureteric bud tip cell, comprising the following steps of contacting the cells, tissue, or organoid comprising the ureteric bud tip cell with a very low density lipoprotein receptor (VLDL-R) binding agent, and isolating the ureteric bud tip cell using the binding agent as an indicator.

Provided herein are floating hydrogel droplet culture methods that enable scaling of stem cell derived alveolar epithelial cell (AEC) expansion to numbers compatible with large animal or human whole lung engineering, as well as molds for generating the droplets and methods of use thereof.