The present invention provides a chromosome-stabilizing agent for stem cells containing a β-nicotinamide mononucleotide or a pharmaceutically acceptable salt thereof, or a solvate thereof, as an active ingredient. The present invention also provides a culture method for stem cells, including culturing stem cells in a culture medium containing a β-nicotinamide mononucleotide or a pharmaceutically acceptable salt thereof, or a solvate thereof.

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.

A production method for a genetically modified megakaryocyte, the method including a step of introducing a CRISPR-associated (Cas) family protein and guide RNA (gRNA) into a megakaryocyte to modify a subject gene, in which the Cas family protein and the gRNA to be introduced into the megakaryocyte in the step form a complex beforehand. This production method is useful as a technique for producing a genetically modified megakaryocyte and a modified platelet.

Compositions and methods are provided for induction and maintenance of quiescence of stem cells.

Provided is a medium composition for differentiation of a human induced pluripotent stem cell to a dermal papilla precursor cell, a differentiation method, and a use for inducing hair follicle neogenesis using the differentiated dermal papilla precursor cell. Further provided is a method for differentiating a human induced pluripotent stem cell into a dermal papilla precursor cell having hair follicle forming ability and a composition of a dermal papilla precursor cell specific differentiation medium for the above differentiation, and have effectively induced hair follicle neogenesis consisting only of human cells without conventional mouse-human hybrid hair follicles by using the human induced dermal papilla precursor cell and a human induced epidermal precursor cell obtained through the differentiation method. Human hair follicle tissue produced is expected to be useful as a therapeutic method for patients suffering from hair loss by overcoming the limitations of hair loss treatments.

Provided herein are novel organoid culture media, organoid culture systems, and methods of culturing tumor organoids using the subject organoid culture media. Also provided herein are tumor organoids developed using such organoid culture systems, methods for assessing the clonal diversity of the tumor organoids, and methods for using such tumor organoids, for example, for tumor modelling and drug development applications. In particular embodiments, the tumor organoid culture media provided herein is substantially free of R-spondins (e.g., R-spondin1).

The present invention provides a composition for treating ischemic diseases or neuroinflammatory diseases. PSA-NCAM-positive neural progenitor cells used in the present invention promote angiogenesis in injected tissue and inhibit an inflammatory response. The PSA-NCAM-positive neural progenitor cells can be simply isolated by using an anti-PSA-NCAM-antibody, and exhibit excellent angiogenic and anti-inflammatory activities compared with mesenchymal stem cells, and thus can be useful as a composition for effectively treating ischemic diseases caused by a vascular injury and nerve damage diseases caused by inflammation. In addition, a secretome of the neural progenitor cells of the present invention reduces the ischemic injury site and allows a neurological function to recover, and thus can be used as an agent for treating ischemic diseases and degenerative nervous system disorders such as nerve damage diseases caused by inflammation.

The following are disclosed: a method for producing a T cell progenitor, including step (1) of culturing CD34.sup.+ cell in a medium containing an aryl hydrocarbon receptor antagonist, a medium for T cell progenitor differentiation containing an aryl hydrocarbon receptor antagonist, and a T cell progenitor inducer containing an aryl hydrocarbon receptor antagonist.

The present description provides improved methods for generating thymic epithelial progenitor (TEP) cells from pluripotent stem (PS) cells in vitro. Also provided are isolated invitro cell populations, compositions, and systems comprising TEP cells produced in vitro. Compositions and systems of cell populations of thymic epithelial cells and subpopulations thereof, as well as cells formed during different stages of differentiation of PS cells into thymic epithelial cells and subpopulations thereof are provided.

The present invention relates in part to nucleic acids encoding proteins, nucleic acids containing non-canonical nucleotides, therapeutics comprising nucleic acids, methods, kits, and devices for inducing cells to express proteins, methods, kits, and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, and therapeutics produced using these methods, kits, and devices. Methods for inducing cells to express proteins and for reprogramming and gene-editing cells using RNA are disclosed. Methods for producing cells from patient samples, cells produced using these methods, and therapeutics comprising cells produced using these methods are also disclosed.