The disclosure relates to stem cells and their therapeutic use in the treatment and/or prevention of pancreatic diseases or disorders. Provided herein are compositions comprising c-kit positive pancreatic stem cells and methods of preparing and using c-kit positive pancreatic stem cells for the treatment and/or prevention of pancreatic diseases or disorders.

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.

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.

The invention relates to a method for differentiating human pluripotent stem cells into fibroblasts, characterized in that the human pluripotent stem cells are cultured on an adherent system in the presence of a medium that is suitable for culturing fibroblasts and in the absence of feeder cells.

The invention provides a bioactive substance composition, a serum-free medium comprising the composition and the uses thereof. The bioactive substance composition is used for serum-free medium and/or composition and the preparation thereof; The serum-free medium and/or composition can be used for primary culture and secondary culture of cells and/or tissues. The cells are selected from any one or more of tendon and/or ligament derived cells, chondrocytes, meniscus stem cells, mesenchymal stem cells, skeleton stem cells, and muscle stem cells. The tissue is the musculoskeletal system tissue. The bioactive substance composition and/or serum-free medium and/or the composition can be used to prepare drugs for tissue and/or organ injury treatment; The tissue or organ injury is selected from the tissue or organ injury of the musculoskeletal system.

The method for producing a cell aggregate including glial progenitor cells according to the present invention comprises: (1) a step of subjecting pluripotent stem cells to suspension culture in an embryoid-body-forming culture medium containing one or more SMAD signaling inhibitors and one or more Wnt signaling activators in the absence of feeder cells for 5 days to 10 days, to form a cell aggregate; (2) a step of subjecting the cell aggregate obtained in (1) to suspension culture in an embryoid-body-forming culture medium containing retinoic acid; (3) a step of subjecting the cell aggregate obtained in (2) to suspension culture in an embryoid-body-forming culture medium or neuron-and-glia-proliferating culture medium containing retinoic acid and one or more SHH signaling activators; and (4) a step of subjecting the cell aggregate obtained in (3) to suspension culture in a neuron-and-glia-proliferating culture medium containing no retinoic acid and one or more SHH signaling activators.

Methods are described for preparing auditory progenitor cells from gingival mesenchymal cells, for uses such as restoring hearing in hearing impaired individuals. In one aspect, a method of treating hearing loss associated with loss of sensory neurons in a human subject is provided, the method comprising the steps of: a. obtaining a population of gingival mesenchymal stem cells (GMSCs); b. optionally expanding the population of GMSCs in vitro; c. encapsulating the population of GMSCs in an elastic three-dimensional scaffold; d. exposing the encapsulated population of GMSCs to a composition comprising one or more growth factors; e. allowing co a sufficient period for the population of GMSCs to differentiate towards auditory progenitor cells; f. optionally retrieving the auditory progenitor cells from the scaffold; and g. introducing the auditory progenitor cells into the inner ear of the subject.

Methods for using cyclin-dependent kinase (CDK) inhibitors to enhance growth and self-renewal of progenitor cells, in vitro and in vivo.

The present invention relates to a method for inducing differentiation, into chondrocytes, of cord blood mononuclear cell-derived induced pluripotent stem cells. In a case where a chondrogenic pellet produced by the method of the present invention is transplanted into a cartilage damage area in vivo, regeneration of cartilage can be effectively exhibited by differentiated chondrocytes. In such a case, an effective cartilage regeneration capacity can be exhibited as compared with a case where chondrocytes produced by differentiation induction with the addition of a recombinant growth factor are transplanted. Thus, the present invention can be usefully used for tissue engineering therapies.

A method of producing a synthetic retina, including differentiating a stem cell culture in a culture medium and supplementing the culture with: (i) Triiodothyronine from about day 18 of cell differentiation; and (ii) retinoic acid for a first time period.