A method of increasing the chondrogenic potential mediated by TGFβ of a mesenchymal stromal cell (MSC) or a population of mesenchymal stromal cells (MSCs), comprising the step of increasing the amount of TGFβR1, and/or decreasing the amount of TGFβR2, and/or decreasing the amount of and/or ACVRL1 of the MSC or a population of mesenchymal stromal cells (MSCs).

Disclosed herein is a technology platform for delivering macromolecules of interest to a subject over a period of time without repeated administration. The compositions disclosed herein are comprised of genetically modified cells, engineered exosomes, and adhesive scaffold materials. The compositions are designed to sustain the supply macromolecules of interest at a site of administration for a long period of time ranging from days to months.

Disclosed herein are methods for the treatment of traumatic brain injury by transplantation of cells descended from marrow adherent stem cells that express an exogenous Notch intracellular domain. The transplanted cells form a pathway along which endogenous neurogenic cells proliferate and migrate from the subventricular zone to the site of injury.

A method of generating neural stem cells or motor neurons is disclosed, the method comprising up-regulating a level of at least one exogenous miRNA and/or down-regulating at least one miRNA using an agent which hybridizes to the miRNA in mesenchymal stem cells (MSCs) or down-regulating Related to testis-specific, vespid and pathogenesis protein 1 (RTVP-1).

The present disclosure relates generally to an osteo-tissue graft capable of promoting bone tissue growth and regeneration, comprising at least one self-assemble peptide and mesenchymal stem cells (MSCs) in accordance with the present invention and a method of preparing such an osteo-tissue graft. The grafts are suitable for treatment of bone disorder or damages through tissue engineering, cellular replacement therapies as well as other applications.

An ex-vivo culturing method of osteoblasts for implantation, comprising a culturing of adult live osteoblasts as an ex-vivo procedure. The ex-vivo culture, which leads to the formation of the active substance, further comprises the steps of isolation of osteo-progenitor cells, differentiation of osteo-progenitor cells in to osteoblasts, expansion culture, cell culture harvest and wash followed by filling and packaging. This method is instrumental in accelerating the process of bone formation.

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 the 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.

Provided is a method for producing a cell population containing embryonic erythroblasts, including the steps of: (1) subjecting pluripotent stem cells to suspension culture to form a cell aggregate; and (2) obtaining the cell population from the cell aggregate obtained in step (1), step (2) including step (2a) of subjecting the cell aggregate to adhesion culture. In addition, provided are an embryonic erythroblast-containing cell population, a cell culture composition containing the cell population, and a compound test method that uses the embryonic erythroblast-containing cell population.

The present invention relates to a use of a human small leucine zipper protein in the adipocyte differentiation procedure. More specifically, sLZIP binds with PPARγ2 to induce the formation of a complex of HDAC3 and PPARγ2, thereby functioning as a corepressor to negatively inhibit the transcriptional activity of PPARγ2 and suppress the differentiation to adipocytes, and thus can be used as a marker for treating diabetes and obesity and developing new medicines therefor.

The present invention relates to anticancer extracellular vesicles, a preparation method therefor, and an anticancer composition comprising same. Immune-tolerized extracellular vesicles containing LDHB and PGC-1α of the present invention provide cancer treatment, suppression of cancer metastasis, and cancer prevention technologies by normalizing cancer cell-specific aerobic glycolysis energy metabolic pathway in which lactate and hydrogen ions, which form a tumor microenvironment favorable for immune evasion, proliferation, metastasis and invasion of cancer cells, are produced, thereby enabling tumors to be effectively removed by means of the immune system of a patient.