A cell for treating neurodegenerative disease treated with angelica extract is provided. The pharmaceutical composition comprises the cell for treating neurodegenerative disease and can significantly increase and recover the number of dopaminergic neurons to achieve the goal for treating neurodegenerative disease.

A method for inducing differentiated cells into mesenchymal stem cells (MSCs), and combinations of regulatory targets thereof. The method includes performing a directional induction on the differentiated cells to prepare the mesenchymal stem cells. The directional induction includes treating cells by inhibiting the TGF- signal pathway, inhibiting the activity of PKC, activating the WNT/-catenin signal pathway and activating the cAMP signal pathway. By regulating corresponding signal pathways and/or enzymatic activities by stages, the differentiated cells are induced into the mesenchymal stem cells.

Disclosed is an apparatus for the production of tissue from cells. The apparatus comprises an elongate body having at least one circumferential groove and being operable to extend, by close-fitting relationship, centrally through at least one trough. The troughs are extending in a closed path, such that the at least one of the circumferential grooves open into an inner edge of a trough.

Also disclosed is a process for production of tissue from cells, via a transitioning intermediate which transitions from the cells into the tissue.

This invention provides methods of generating induced sensory neurons (iSNs) from non-neuronal cells such as fibroblasts. The invention also provides methods of using iSNs in various therapeutic or non-therapeutic applications, e.g., methods to identify agents or cellular modulations that enhance iSN formation from non-neuronal cells.

Disclosed herein are methods of producing induced pluripotent stem cells from chondrocytes, and further, methods of producing chondrocytes from said induced pluripotent stem cells. The invention further provides methods of regenerating cartilaginous tissue.

The present disclosure relates to a novel musculoskeletal stem cell (MSSC) differentiated from an ESC (embryonic stem cell) or an iPSC (induced pluripotent stem cell). The musculoskeletal stem cell of the present disclosure can be easily induced from a human embryonic stem cell or a human-derived pluripotent stem cell and can be effectively differentiated not only into bone but also into cartilage, tendon and muscle. Accordingly, it can be usefully used for prevention or treatment of various musculoskeletal diseases.

The disclosure relates to a method of reprogramming one or more somatic cells, e.g., partially differentiated or fully/terminally differentiated somatic cells, to a less differentiated state, e.g., a pluripotent or multipotent state. In further embodiments the invention also relates to reprogrammed somatic cells produced by methods of the invention, to uses of said cells, and to methods for identifying agents useful for reprogramming somatic cells.

Methods of producing stem cell conditioned media to treat mammalian injuries or insults. In at least one embodiment of a method for isolating non-endothelial adipocyte-depleted stromal cells of the present disclosure, the method comprises, comprising dissociating subcutaneous adipose tissue isolated from a mammal into a cell suspension, removing adipocytes from said cell suspension, resulting in a non-endothelial adipocyte-depleted cell suspension, and culturing the non-endothelial adipocyte-depleted cell suspension in a media containing growth factors VEGF, bFGF, EGF, and IGF, such that a mixed population of cells comprising a first population of further differentiated non-endothelial adipocyte-depleted CD34+/VEcadherin cells and a second population of further differentiated non-endothelial adipocyte-depleted CD34+/VEcadherin+ cells are obtained and expanded.

Brown adipose tissue (BAT) progenitor cells and methods for identifying BAT progenitor cells in a population of cells are provided. Methods are also provided for inducing differentiation of BAT progenitor cells into differentiated brown adipocytes, inducing expression or increased activity levels of BAT uncoupling protein-1 (UCP1), and for identifying agents capable of inducing differentiation of BAT progenitor cells into brown adipocytes and/or inducing expression or increased activity levels of UCP1. Differentiated brown adipocytes and agents and methods for inducing differentiation of BAT progenitor cells can be used for treatment of or the making of medicaments for the treatment of metabolic diseases or conditions in a patient such as obesity, overweight, impaired glucose tolerance, insulin-resistance, type 2 diabetes, dyslipidemia, hypertension, cardiovascular diseases, metabolic syndrome, and the like. Differentiated brown adipocytes and agents and methods for inducing differentiation of BAT progenitor cells can be used for prevention of hypothermia.

The present invention relates to a method for inhibiting an inflammatory response in chondrocytes, and dedifferentiation or destruction of chondrocytes by irradiating damaged chondrocytes with low-dose radiation, and a method of treating a disease of cartilage by irradiating damaged chondrocytes with low-dose radiation.