Disclosures herein are directed to chemically defined animal-derived component free supplements designed for individual cell types that supports the ex vivo growth of cells as well or better than serum, in chemically defined conditions.

Compositions and methods for inducing pluripotent stem cells into retinal ganglion cells for administration to a subject for treating progressive optic neuropathies, thereby alleviating symptoms of such disorders including glaucoma.

Provided are a primary cell culture medium that contains a combination of an MST1/2 kinase inhibitor and a ROCK kinase inhibitor and is used for culturing primary esophageal squamous cell carcinoma epithelial cells, and a culture method using the primay cell culture medium. In the culture method, the primary cell culture medium is used to culture primay cells on a culture vessel coated with an extracellular matrix glue, so that the primary cells prolilferate rapidly. A cell model obtained by using the primary cell culture medium and the primary cell culture method of the present invention can be used for the efficacy evaluation and screening of drugs.

A production method for an organoid, the production method including a step of culturing adult stem cells or a cell tissue piece including adult stem cells in a medium containing a chimeric Fibroblast Growth Factor (FGF) that includes a partial region of FGF1 and a partial region of FGF2; an organoid produced by the production method; a medium including a chimeric FGF and having a content of chimeric FGF of 50 ng/mL or less; and an evaluation method for a test substance are provided, and according to the chimeric FGF, a content of growth factors included in a medium can be reduced.

The present invention relates to a method, which patterns 3D organoids prepared from human pluripotent stem cells and chops the same so as to culture oligodendrocyte progenitor cells, and induces the differentiation thereof so as to obtain a large quantity of finally differentiated oligodendrocytes. Compared to cells differentiated by a conventional differentiation method, oligodendrocytes obtained in a large quantity have the same or superior reproducibility, stability, and functionality and have remarkably shortened differentiation time, and thus are expected to be very useful for cell therapeutic agents or for screening for therapeutic drugs.

A method of obtaining a pluripotent-like multipotent cell, including providing a cell of a first type which is not a pluripotent-like multipotent cell; contacting the cell of a first type with an agent capable of remodeling the chromatin and/or DNA of the cell; transiently increasing expression of at least one pluripotent gene regulator in the cell of a first type, to a level at which the at least one pluripotent gene regulator is capable of driving transformation of the cell of a first type into the pluripotent-like multipotent cell; and placing or maintaining the cell in a differentiation medium and maintaining intracellular levels of the at least one pluripotent gene regulator for a sufficient period of time to allow a stable pluripotent-like multipotent cell to be obtained; wherein the pluripotent-like multipotent cell so obtained does not exhibit teratoma formation in vivo.

Embodiments herein relate to in vitro production methods of hematopoietic stem cell (HSC) and hematopoietic stem and progenitor cell (HSPC) that have long-term multilineage hematopoiesis potentials upon in vivo engraftment. The HSC and HSPCs are derived from pluripotent stem cells-derived hemogenic endothelia cells (HE) by non-integrative episomal vectors-based gene transfer.

Methods of generating spinal cord glutamatergic interneurons (V2a interneurons) from human pluripotent stem cells (hPSCs) are provided. A method of the present disclosure may include culturing a first population of hPSCs in vitro in a neural induction medium that includes: a retinoic acid signaling pathway activator; a sonic hedgehog (Shh) signaling pathway activator; and a Notch signaling pathway inhibitor, wherein the culturing results in generation of a second population of cultured cells containing CHX10+ V2a interneurons. Also provided are non-human animal models that include the hPSC-derived spinal cord glutamatergic interneurons, and methods of producing the non-human animal models.

The present invention relates to a method for preparing oncolytic virus-containing mesenchymal stem cells having improved cell viability, a method for storing the oncolytic virus-containing stem cells produced by the method, and a cell therapeutic agent for cancer treatment containing the oncolytic virus-containing stem cells produced by the method. More particularly, an oncolytic virus is introduced into mesenchymal stem cells, followed by treatment with aspirin, so that the infection efficiency of the oncolytic virus may be increased, the replication time of the virus may be prolonged, and lysis of the stem cells by the virus may be prevented, thereby improving the viability and survival period of the stem cells and preparing anticancer stem cells having excellent activity. The anticancer stem cell therapeutic agent produced in this way is maintained at high viability during cold storage due to aspirin treatment, and thus is very useful medically and industrially.

Disclosed herein are compositions and methods to decellularize an isolated organ or portion thereof. Also disclosed herein are compositions and methods for treatment of disease utilizing a decellularized or recellularized organ. Also disclosed herein are methods of improving decellularization and/or recellularization of an isolated organ or portion thereof.