A method of generating a population of cells useful for treating a brain disorder in a subject is disclosed. The method comprises contacting mesenchymal stem cells (MSCs) with at least one exogenous miRNA having a nucleic acid sequence at least 90% identical to a sequence selected from the group consisting of SEQ ID NOs: 15-19 and 27-35, thereby generating a population of cells and/or generating neurotrophic factors that may provide important signals to damaged tissues or locally residing stem cells. MSCs differentiated by miRs may also secrete miRs and deliver them to adjacent cells and therefore provide important signals to neighboring endogenous normal or malignant cells.

The current invention concerns a cell medium for in vitro inducing chondrogenesis or tenogenesis in mesenchymal stem cells (MSCs). The medium includes a glucose medium supplemented with at least one growth factor. The growth factor is selected from fibroblast growth factors (FGF) or transforming growth factors (TGF). FGF or TGF is present in a total concentration of between 1 and 15 ng/ml. In both cases, IGF can be added to enhance the induction process. In a further aspect, the invention provides for a use of such cell medium as well as a method for inducing isolated mesenchymal stem cells (MSCs) and a cell composition obtained by such method.

Disclosed herein are compositions comprising adipogenic cells that are useful for the treatment, prevention, or amelioration of diseases or disorders.

A method of generating a population of cells useful for treating a brain disorder in a subject is disclosed. The method comprises contacting mesenchymal stem cells (MSCs) with at least one exogenous miRNA having a nucleic acid sequence at least 90% identical to a sequence selected from the group consisting of SEQ ID NOs: 15-19 and 27-35, thereby generating a population of cells and/or generating neurotrophic factors that may provide important signals to damaged tissues or locally residing stem cells. MSCs differentiated by miRs may also secrete miRs and deliver them to adjacent cells and therefore provide important signals to neighboring endogenous normal or malignant cells.

The invention provides culture platforms, cell media, and methods of differentiating pluriptent cells into hematopoietic cells. The invention further provides pluripotent stem cell-derived hematopoietic cells generated using the culture platforms and methods disclosed herein, which enable feed-free, monolayer culturing and in the absence of EB formation. Specifically, pluripotent stem cell-derived hematopoietic cell of this invention include, and not limited to, iHSC, definitive hemogenic endothelium, hematopoietic multipotent progenitors, T cell progenitors, NK cell progenitors, T cells, and NK cells.

A cell medium for in vitro inducing chondrogenesis or tenogenesis in mesenchymal stem cells (MSCs). The medium is a glucose medium supplemented with at least one growth factor is chosen from the group of fibroblast growth factors (FGF) or the group of transforming growth factors (TGF), and the FGF or TGF is present in a total concentration of between 1 and 15 ng/ml. In both cases, IGF can be added to enhance the induction process. The use of the cell medium, a method for inducing isolated mesenchymal stem cells (MSCs) and a cell composition obtained by the method are also provided.

Disclosed herein is a 3D-printed, biocompatible macroporous device that houses stem cell derived -cell (SC- cell) clusters within a degradable fibrin gel. Cluster sizes are used that avoid severe hypoxia within 3D-printed devices and a microwell-based technique is used for resizing clusters within this range. 3D-printed devices may function for at least 12 weeks, are retrievable, and maintain structural integrity.

The present specification provides libraries of HLA homozygous induced pluripotent cell

The present invention relates to a complex for promoting cartilage differentiation comprising stem cells or a culture thereof and a cartilage cell-free crush, a method for fabricating cartilage by using the complex, cartilage fabricated via the method, a pharmaceutical composition comprising the complex for preventing or treating arthropathy, a method for preventing or treating arthropathy using the composition, a composition for inducing cartilage cell differentiation comprising the prepared cartilage cells, and a method for fabricating cartilage using the prepared cartilage cells. The complex for promoting cartilage differentiation comprising the stem cells or the culture thereof and the cartilage cell-free crush provided in the present invention is not only differentiated into cartilage cells without side effects even in vivo, but also promotes differentiation of inherent stem cells in vivo into cartilage cells via a paracrine effect exhibited in the differentiated cartilage cells to effectively regenerate the damaged cartilage, and thus the complex may be widely used for treatment of arthropathy involving the cartilage damage.

The present invention relates to a medium composition containing an Ecklonia cava extract for dedifferentiation into 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 adipocytes.