[Problem] To provide a cell preparation including mesenchymal stem cells (MSCs) having a high therapeutic effect. [Solution] A method for producing activated mesenchymal stem cells, including a step of culturing MSCs in a medium containing an activator that includes an extract from a mammalian fetal appendage as an active ingredient, using a cell culture carrier having a three-dimensional structure formed of a fiber is provided. A marker for a therapeutic effect of MSCs selected from the group consisting of p16.sup.ink4a, p14.sup.ARF, CDK4, CDK6, RB, and CD47, a method for determining a therapeutic effect using the marker, a method for determining suitability of MSCs to be treated with a treatment for enhancing a therapeutic effect of MSCs, a cell preparation including MSCs, and a method for producing the same are also provided.

Provided are an anticoagulation and anticalcification biological material and a preparation method therefor. The preparation method includes the following steps: introducing, on a biological tissue, a polymerizable reactive group, and undergoing free radical copolymerization with a zwitterion. In the present disclosure, by introducing a reactive group capable of free radical polymerization to a biological tissue and undergoing free radical copolymerization with a zwitterionic monomer, collagen in the biological tissue is crosslinked at multiple sites by means of a polymer, thereby achieving sufficient crosslinking within and between collagen fibers, improving the stability of the biological tissue, and prolonging the service life of the biological tissue. Moreover, a zwitterion is introduced to the surface of the biological tissue, to improve the anticoagulation performance, promote the in-situ endothelialization of a biological valve, and prevent the calcium element deposition.

The present invention relates to a composition for inducing differentiation into insulin-producing cells, and a method for inducing differentiation into insulin-producing cells. By using a differentiation inducing composition according to an exemplary embodiment or a differentiation inducing method according to an exemplary embodiment, insulin-producing cells can be prepared in a short period by effectively inducing the differentiation of various types of stem cells into insulin-producing cells, and can be mass-produced in a relatively simple manner, and thus a pharmaceutical composition for preventing or treating diabetes mellitus, comprising insulin-producing cells and/or insulin produced thereby, can be provided.

Provided herein are endocrine progenitor cells and organoids derived from adult islets in vitro, as well as methods for making and using the same. The compositions are useful for treating or preventing diabetes, other diseases or disorders characterized by impaired islet function, and symptoms thereof.

The invention relates to improved methods for culturing an epithelial stem cell or an organoid comprising epithelial stem cells. The invention also relates to culture media suitable for use with said methods, organoids obtainable or obtained by said methods and uses of said culture methods, media and organoids in drug discovery and validation, toxicity assays, diagnostics and therapy.

The subject matter of the present invention is a method for differentiating epithelial stem cells, comprising culturing one or more epithelial stem cells in contact with an extracellular matrix in the presence of an expansion medium, a bovine pituitary extract, a receptor tyrosine kinase ligand, a supernatant of primary fibroblasts and optionally, a Rho kinase inhibitor.

The present invention relates to methods for obtaining a substantially pure population of pluripotent stem cell-derived airway basal-like cells. It also relates to a method of obtaining an in vitro pluripotent stem cell-derived airway epithelium model, utilising the pluripotent stem cell-derived airway basal-like cells. The invention further relates to an in vitro airway epithelial model, or lung model, which can be used for disease modelling and/or drug screening and in particular to an in vitro model for SARS-CoV-2 infection and for screening for agents effective against infection with SARS-CoV-2 i.e. COVID-19 and methods of using the same.

Human raphe nuclei organoids or spheroids (hRNS) are generated in vitro, which may be generated at least in part from human pluripotent stem (hPS) cells. Such spheroids model the human raphe nuclei and comprise specific sets of cells, e.g. serotonergic neurons, that are associated with the raphe nuclei of a human, and can be assembled with cortical spheroids (hCS) to generate functional human neuromodulatory circuits.

The present invention includes a functionalized nerve guidance conduit (NGC), methods of making neurotrophic factor-expressing neural crest stem-like cells (NCSC) and/or Schwann cell precursor-like (SCP) cells, methods of making the functionalized nerve guidance conduit, and methods of treating nerve injury using the functionalized nerve guidance conduit.

The present invention relates to a method for fabrication of an extracellular matrix-induced self-assembly and to fabrication of an artificial tissue using same. The method for fabrication of an extracellular matrix-induced self-assembly comprise the steps of: (a) decellularizing and powdering a tissue-derived extracellular matrix (ECM); and (b) adding the decellularized extracellular matrix powder to cells and culturing the cells to form a cell-extracellular matrix powder self-assembly. Accordingly, the self-assembly has characteristics similar to those of extracellular matrix tissues and can be fabricated into three-dimensional artificial tissues 1 cm or greater in size, thus finding advantageous applications as a cell therapy product and an artificial tissue implant.