The present invention relates to a method for inducing the differentiation of corneal epithelial cells from pluripotent stem cells. More specifically, the present invention relates to a method for autonomously differentiating pluripotent stem cells, such as human iPS cells, into ectodermal cell lineage in a serum-free medium without using feeder cells and inducing the differentiation of the resultant ocular surface ectodermal lineage cells into corneal epithelial cells.

The present invention provides a method with which it is possible to directly induce nervous system cells efficiently and in a short amount of time. Because the method is easy to scale up and is not affected by the characteristics or background of the somatic cells used as material, the method enables the stable supply of nervous system cells. The nervous system cells obtained by the method are useful in various fields of research and healthcare.

The present invention relates to a reliable method for producing amniotic-like epithelial cells, using a new methodology. The invention also relates to a composition and the use of said composition comprising amniotic-like epithelial cells or a preparation derived therefrom. Said cells may have particular utility in regenerative medicine, research and/or cosmetic preparations.

Provided is a human-derived sensory neuron induction culture system. A combination of a small molecule inhibitor LY2157299 and a growth factor is added into a serum-free basal medium. Compared with an induction method involving serum, not only is the efficiency of inducing pluripotent stem cells into sensory neurons greatly improved, but the expression of a variety of ion channel proteins is also significantly improved, thereby achieving successful induction of multiple induced pluripotent stem cells from different sources into sensory neurons.

Provided are a primary cell culture medium that contains a combination of an MST1/2 kinase inhibitor and a ROCK kinase inhibitor and is used for culturing primary esophageal squamous cell carcinoma epithelial cells, and a culture method using the primay cell culture medium. In the culture method, the primary cell culture medium is used to culture primay cells on a culture vessel coated with an extracellular matrix glue, so that the primary cells prolilferate rapidly. A cell model obtained by using the primary cell culture medium and the primary cell culture method of the present invention can be used for the efficacy evaluation and screening of drugs.

The invention relates to in vitro methods for isolating, or producing selected populations of human epicardial cells derived from human pluripotent stem cells; defined mixtures of said cells, and therapeutic uses thereof. Said population comprises epicardial cells with or without the potential to differentiate into cardiac fibroblasts, or a mixture thereof.

The present invention relates to a method for producing induced dopaminergic neuronal progenitors from adult cells using direct reprogramming, induced dopaminergic neuronal progenitors produced via the method and a use for same, wherein, as a result of having been directly reprogrammed from adult cells, the induced dopaminergic neuronal progenitors produced by means of the present invention can be transplanted inside a living body without the risk of oncogenicity, and have excellent proliferative capacity and dopaminergic neuronal differentiation potency, thus can be usefully utilized as a cell therapy product for Parkinson's disease.

This document relates to bioengineering and involves bioengineered thymus organoids and related humanized animal models. The thymus organoids and animal models have various commercial and clinical uses, including generating humanized antibodies, making antigen-specific human T cells, inducing transplantation tolerance, rejuvenating thymus functions, and modeling human diseases.

A production method for an organoid, the production method including a step of culturing adult stem cells or a cell tissue piece including adult stem cells in a medium containing a chimeric Fibroblast Growth Factor (FGF) that includes a partial region of FGF1 and a partial region of FGF2; an organoid produced by the production method; a medium including a chimeric FGF and having a content of chimeric FGF of 50 ng/mL or less; and an evaluation method for a test substance are provided, and according to the chimeric FGF, a content of growth factors included in a medium can be reduced.

A medium composition, containing a basic fibroblast growth factor (bFGF) at not less than 150 ng/mL is useful for culturing cells.