An object of the present invention is to provide a method for preparing osteoblasts that are applicable, without causing risk of canceration, to bone defect repair or to the treatment of bone resorption, fracture, osteoporosis, or the like. To solve this problem, the present invention provides a method for preparing osteoblasts, the method comprising culturing mammal differentiated somatic cells in a medium in the presence of at least one compound selected from the group consisting of (1) statin compounds, (2) casein kinase 1 inhibitors, (3) cAMP inducers, and (4) histone methyltransferase inhibitors, to convert the somatic cells into osteoblasts.

The subject invention concerns materials and methods for expansion of stem cells, such as mesenchymal stem cells (MSC), that improve translational success of the cells in the treatment of various conditions. The subject invention utilizes cell self-aggregation as a non-genetic means to enhance their therapeutic potency in a microcarrier bioreactor. In one embodiment of the method cells are cultured in a container or vessel in the presence of thermally responsive microcarriers (TRMs) wherein cells adhere to the surface of the TRMs. After a period of time the cell culture temperature is reduced so that the cells detach from the TRMs. The detached cells are allowed to form 3D aggregates. The 3D aggregates can be collected and treated to dissociate the cells. Dissociated cells can then be used for transplantation in methods of treatment or for in vitro characterization and study.

Compositions and methods are described herein for transdifferentiation of multipotent stromal cells into cells that can express insulin.

Disclosed are a medium composition for culturing mesenchymal stem cells for the treatment of cancer which can inhibit proliferation of cancer cells, while maintaining differentiation capability and activity thereof, and a method for producing mesenchymal stem cells for the treatment of cancer using the composition. More particularly, disclosed are a medium composition containing vitamin C and aspirin for producing mesenchymal stem cells having improved inhibitory activity against proliferation of cancer cells, and a method for producing mesenchymal stem cells for the treatment of cancer using the composition.

As a method for producing enterocytes derived from pluripotent stem cells and having functions corresponding to those of actual enterocytes, a method for producing enterocytes using an enterocyte differentiation medium containing a GSK3 inhibitor, and at least one selected from the group consisting of an activator of a hepatocyte growth factor receptor, an adrenal cortex hormone, calcitriol, and dimethyl sulfoxide is provided.

Disclosures herein are directed to chemically defined animal-derived component free supplements designed for individual cell types that supports the ex vivo growth of cells as well or better than serum, in chemically defined conditions.

The present invention is directed to therapeutic multifunctional immature dental pulp stem cells (IDPSCs), and IDPSCs multi-lineage compositions. The invention is further directed to the use of IDPSCs and compositions to reduce the risk of and/or treat degenerative diseases or for other medicinal and aesthetic purposes.

Methods of making neuronal stem cells and exosomes of diencephalon lineage are disclosed. Also provided are compositions comprising neuronal stem cells or exosomes of diencephalon lineage, which may be formulated as pharmaceutical formulations for the treatment and prevention of disorders associated with the neuroendocrine system and the control of behavioral and physiological processes.

Provided are a method of preparing a stem cell-derived epidermal progenitor cell conditioned medium, the method including: differentiating stem cells to stem cell-derived epidermal progenitor cells by culturing the stem cells in a differentiation medium containing ascorbic acid and hydrocortisone; producing a culture of stem cell-derived epidermal progenitor cells by culturing the differentiated stem cell-derived epidermal progenitor cells in a medium; and recovering the stem cell-derived epidermal progenitor cell conditioned medium from the culture of the stem cell-derived epidermal progenitor cells, a stem cell-derived epidermal progenitor cell conditioned medium prepared by the method, and a method of producing a protein from stem cell-derived epidermal progenitor cells, the method including the method of preparing the stem cell-derived epidermal progenitor cell conditioned medium.

The present invention relates to a method of preparing a three-dimensional (3D) cell composition comprising the steps of a) forming a support matrix containing oral fibroblasts suspended within the support matrix by mixing fibrinogen, a modifier and oral fibroblasts with thrombin, b) incubating the support matrix in a cell culture media for a sufficient time to allow development of a first layer of the three-dimensional cell composition, and c) seeding oral keratinocytes on a surface of the first layer and culturing the oral keratinocytes to form a second layer of the three-dimensional cell composition. In specific embodiments of the invention, the method is exemplified for the production of an artificial gingival tissue, wherein polyethylene oxide), 4-arm, succinimidyl glutarate terminated is used as the modifier. Also disclosed are uses of the 3D cell composition which include treatment of a gum disease or condition, regenerative therapy and for in vitro testing.