The present invention provides a culture method capable of maturing an organoid through long-term culture, and suitable for producing a conformational organ. The culture method of the present invention is a method for culturing an organoid and/or cells constituting an organ immobilized in a chamber with a culture fluid perfused, and the culture fluid is perfused in such a manner as to generate a turbulent flow in the chamber.

The present invention relates to a pharmaceutical composition for preventing or treating renal diseases, comprising, as an active ingredient, exosomes isolated from precursor cells of induced pluripotent stem cell-derived mesenchymal stem cells, the precursor cells having been treated or not having been treated with a pretreatment material. Exosomes of the present invention exhibit an effect of preventing or treating renal diseases that is more improved than that of exosomes isolated from conventional mesenchymal stem cells, thereby being effectively usable for relevant research and development and productization.

Disclosed is a producing method of a mesenchymal stem cell for brain neuronal disease prevention or treatment including ghrelin treatment, a composition for producing a mesenchymal stem cell for brain neuronal disease prevention or treatment, a mesenchymal stem cell produced by the producing method, and a pharmaceutical composition for prevention or treatment of brain neuronal disease containing the same. When using the producing method of the mesenchymal stem cells with the increased AgRP (Agouti related peptide) expression level according to the present disclosure, the mesenchymal stem cells produced by the method, or ghrelin, various brain neuronal diseases such as Alzheimer's disease may be effectively prevented or treated. When the composition for producing the mesenchymal stem cells with the increased AgRP expression level containing ghrelin according to the present disclosure is used, the mesenchymal stem cells with the increased AgRP expression level may be effectively produced.

Provided herein are, in various embodiments, methods and compositions for differentiating olfactory mucosa-derived mesenchymal stem cells (OM-MSC). In certain embodiments, the disclosure provides for media to differentiate OM-MSCs. In still further embodiments, the disclosure provides for methods and compositions using differentiated OM-MSCs for the treatment of nerve repair. In particular embodiments, the disclosure provides for novel treatments of peripheral nerve repair.

The present disclosure provides a method for promoting the growth of parietal decidual basalis-mesenchymal stem cells (PDB-MSCs), which comprises promoting the growth of parietal decidual basalis-mesenchymal stem cells (PDB-MSCs) via a human umbilical cord-mesenchymal stem cell (UC-MSC)-derived exosome. In the present disclosure, after the PDB-MSCs are co-cultivated with the human UC-MSC-derived exosome, the PDB-MSCs show strong cell proliferation ability, prominent cell shape, and desirable cell viability. That is, the human UC-MSC-derived exosome of the present disclosure can improve a quality of PDB-MSCs and effectively improve the ability of PDB-MSCs to secrete vascular endothelial growth factor (VEGF) and stem cell factor (SCF), so as to solve the problem that PDB-MSCs show decreased proliferation ability and poor cell viability after multiple passages, which effectively facilitates the large-scale cultivation and clinical practice of PDB-MSCs.

Provided are a composition for ciliogenesis, containing a mesenchymal stem cell or a culture medium of mesenchymal stem cell. The mesenchymal stem cell or the culture medium of mesenchymal stem cell increases the number and promotes growth of primary cilia in cells. The mesenchymal stem cell or the culture medium of mesenchymal stem cell can be used as a pharmaceutical composition for preventing or treating diseases caused by ciliopathy or ciliary impairment. The mesenchymal stem cell or the culture medium of mesenchymal stem cell can be used as a cosmetic composition. A method for preventing or treating ciliopathy or ciliary impairment is disclosed.

Provided is a hair follicle germ capable of forming a hair shaft-like structure in vitro simply and within a short period of time. A method of producing a hair follicle germ includes: inoculating epithelial cells and mesenchymal cells; maintaining the epithelial cells and the mesenchymal cells in a culture solution in which (a) laminin and entactin, and/or (b) type IV collagen is dispersed; and co-culturing the epithelial cells and the mesenchymal cells in a culture solution to form a hair follicle germ.

The present disclosure provides ex vivo chamber-specific cardiac tissues, methods for generating the cardiac tissues in a bioreactor, and methods of using the cardiac tissues. Examples of cardiac tissues that can be generated include, but are not limited to, atrial tissues, ventricular tissues, and composite tissues having an atrial tissue connected to a ventricular tissue.

Disclosed are means, methods and compositions of matter useful for inhibiting, in an antigen-specific manner, immunity towards an autoantigen or alloantigen. In one embodiment of the invention, regenerative cells are cultured ex vivo together with immune cells from a mammal suffering from an autoimmune condition. Autoantigens or alloantigens are added in the culture of regenerative cells and cells from an autoimmune disease suffering individual in a manner so that said regenerative cells can endow onto said immune cells of said patient suffering from autoimmunity a state of antigen specific infectious tolerance. In one embodiment, said infectious tolerance involves T regulatory cells inducing conversion of dendritic cells to tolerogeneic dendritic cells, and furthermore in other embodiments administration of tolerogenic dendritic cells induces T regulatory cells.

Methods of reducing T cell activation including co-culturing with T cells, term amniotic fluid mesenchymal stem cells (TAF-MSCs) isolated from term human amniotic fluid. Other aspects relate to methods of inhibiting macrophage polarization toward the M1 pro-inflammatory phenotype including co-culturing with macrophages TAF-MSCs isolated from term human amniotic fluid. Other aspects relate to methods of inhibiting cytokine secretion from activated Peripheral Blood Mononuclear Cell (PBMC) including co-culturing with the PBMC tissue-typed TAF-MSCs isolated from human amniotic fluid. Other aspects relate to methods of differentiating TAF-MSC including: obtaining TAF-MSC cells from term amniotic fluid, plating the TAF-MSC cells in limiting dilution to obtain expanded colonies from single cells, and transferring the cells to a differentiation media that contains one or more factor to differentiate the TAF-MSC cells.