Compositions and methods are described herein for chemically inducing cells that express a single pluripotency transcription factor to change their differentiation state and become cardiac cells, cardiac progenitor cells, cardiomyocytes, or a combination thereof.

Provided is a megakaryocyte and/or platelet production method, enabling to produce a megakaryocyte and/or platelet from mesenchymal cells such as preadipocytes in a relatively short period of time, simply, in a large amount and at lower cost or more efficiently in vitro and a method for producing TPO simply and in a larger amount. A first invention is a method for producing a megakaryocyte and/or platelet, comprising culturing a mesenchymal cell in a mesenchymal cell culturing basic medium containing an iron ion and an iron transporter and collecting megakaryocytes and/or platelets from a culture. A second invention is a method for producing thrombopoietin, comprising culturing a mesenchymal cell or mesenchymal cell-derived megakaryocyte in a mesenchymal cell culturing basic medium containing an iron ion and an iron transporter and collecting thrombopoietin from a culture. A third invention is a method for producing thrombopoietin, comprising culturing a preadipocyte in a preadipocyte culturing basic medium containing dexamethasone, 3-isobutyl-1-methylxanthine and insulin and collecting thrombopoietin from a culture.

Disclosed is a method of achieving optimal mammalian energy balance using forskolin on a particular physiological and developmental stage of the mammalian cellular system.

The disclosure provides a method of generating non-clustered stem cells. Cluster disruption prior to mesoderm differentiation increases yield and efficiency in hEMP and T cell differentiation. Thus, this method allows the development of improved methods of hEMP and T cell differentiation.

The present invention relates to methods for the production of immune cells and immunomodulatory cells expressing a transgene of interest, using lentiviral vectors. The invention also relates to populations of cells produced by such methods and uses thereof.

The present invention provides a method for producing platelets, and the method comprises a step of culturing megakaryocytes in a culture solution in a culture vessel, wherein the culture solution is stirred with a stirrer in the culture step.

The present invention relates to a medium composition containing an Ecklonia cava extract for dedifferentiation an induced pluripotent stem cell. Also, the present invention relates to a method for differentiating an induced pluripotent stem cell produced by using the medium composition into hepatocytes. When using the medium composition according to the present invention, induced pluripotent stem cells using mesenchymal stem cells can be produced efficiently, and the pluripotent stem cells which have been produced can be useful as a cell treatment agent by being capable of being differentiated into hepatocytes.

The present invention concerns a method of producing brown/beige adipocytes from white adipose tissue cells and/or mesenchymal stem cells, in particular from subcutaneous white adipose tissue cells, and the use of said brown/beige adipocytes in a cell based therapy of a subject or in screening platforms.

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 pertains to hepatocytes, liver progenitor cells, cholangiocytes, liver sinusoidal endothelial progenitor cells, liver sinusoidal endothelial cells, hepatic stellate progenitor cells, hepatic stellate cells, and liver cellular tissue models, as well as to methods for preparing these cells. The present invention also pertains to a cell fraction comprising liver progenitor cells, liver sinusoidal endothelial progenitor cells, or hepatic stellate progenitor cells. The present invention also pertains to a pharmaceutical composition or kit comprising the above-mentioned cells, a liver cellular tissue model, or a cell fraction. The present invention also pertains to: a method for screening liver disease treatment agents; a method for evaluating the hepatotoxicity of drugs, hepatocytes for infectious disease models, and a method for preparing the same; infectious disease model tissues and a method for preparing the same; as well as a method for screening infectious liver disease treatment agents.