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.

This invention is directed to, inter alia, compounds, methods, systems, and compositions for the maintenance, enhancement, and expansion of hematopoietic stem cells derived from one or more sources of CD34+ cells. Sources of CD34+ cells include bone marrow, cord blood, mobilized peripheral blood, and non-mobilized peripheral blood. Also provided herein are compounds of Formula I

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which are useful in maintaining, enhancing, and expanding of hematopoietic stem cells.

The present invention relates to ex vivo methods for obtaining populations of human keratinocytes derived from human pluripotent stem cells (hPSCs). More particularly, the present invention relates to an automated method that combines in a sequential manner automated differentiation and amplification of a population of hPSC-derived keratinocytes.

This disclosure relates to methods for expanding inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) and differentiating inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells) to inner ear hair cells (e.g., atonal homolog 1 (Atoh1)+ inner ear hair cells) and the use of the inner hear supporting cells and hair cells, e.g., for identifying candidate therapeutic compounds for the treatment of hearing loss and balance loss. Additionally, the methods described herein can be used in the treatment of a subject having hearing loss and balance loss that would benefit from increased proliferation and differentiation of inner ear supporting cells (e.g., Lgr5+ inner ear supporting cells).

Disclosed herein are methods, compositions, kits, and agents useful for inducing β cell maturation, and isolated populations of SC-β cells for use in various applications, such as cell therapy.

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.

A method for producing renal stromal cells, comprising a step (3) of culturing renal stromal precursors in a medium comprising a platelet derived growth factor receptor agonist to obtain renal stromal cells is provided as a technique for supplying renal stromal cells. This production method can further comprise a step (2) of inducing renal stromal precursors from neural crest cells, and a step (1) of culturing pluripotent stem cells in a medium comprising a GSK3β inhibitor, a TGFβ inhibitor, and retinoic acid and/or a derivative thereof to induce neural crest cells.

Methods for generating pre-oligodendrocyte progenitor cells (pre-OPCs) and oligodendrocyte progenitor cells (OPCs) from human pluripotent stem cells are provided using chemically-defined culture media that allow for generation of pre-OPCs and OPCs in as little as three days. Culture media, isolated cell populations and kits are also provided.

The present invention provides methods to promote the differentiation of pluripotent stem cells into insulin producing cells. In particular, the present invention provides a method to produce cells expressing markers characteristic of the pancreatic endocrine lineage that co-express NKX6.1 and insulin and minimal amounts of glucagon.

This disclosure relates to method of differentiating stem cells to specific cardiac-like cells. In certain embodiments, the disclosure contemplates methods of generating left ventricular-like cells and the atrial-like cells by timing the exposure of dividing stem cells to retinoic acid (RA) or retinoic acid receptor inhibitors.