The present invention provides a method for producing astrocytes from neural progenitor cells, the method comprising: (1) culturing neural progenitor cells in a culture medium comprising a neurotrophic factor; (2) dissociating the cells obtained in the step (1); and (3) subjecting the cells obtained in the step (2) to adherent culture in a culture medium comprising a neurotrophic factor using an uncoated culture vessel.

The disclosure relates to compositions and superstructures comprising peptide amphiphiles. In some aspects, the disclosure relates to compositions and superstructures comprising host and guest peptide amphiphiles, wherein the host and guest moieties of the peptide amphiphiles interact via non-covalent interactions to form a supramolecular assembly, such a superstructure. In some aspects, the superstructure further comprises a bioactive moiety. Suitable bioactive moieties may be selected to promote cell growth, migration, and/or differentiation.

This invention provides a system for efficiently producing differentiated cells from pluripotent cells, such as human embryonic stem cells. Rather than permitting the cells to form embryoid bodies according to established techniques, differentiation is effected directly in monolayer culture on a suitable solid surface. The cells are either plated directly onto a differentiation-promoting surface, or grown initially on the solid surface in the absence of feeder cells and then exchanged into a medium that assists in the differentiation process. The solid surface and the culture medium can be chosen to direct differentiation down a particular pathway, generating a cell population that is remarkably uniform. The methodology is well adapted to bulk production of committed precursor and terminally differentiated cells for use in drug screening or regenerative medicine.

A method of manufacturing a multilayered cell sheet of neural crest stem cells (NCSCs), includes: (1) isolating and culturing NCSCs from peripheral nerves; (2) embedding the cultured NCSCs in a hydrogel; (3) culturing the hydrogel comprising the NCSCs embedded therein under stressed culture conditions in which a physical support is applied; and (4) culturing the resulting hydrogel of step (3) under non-stressed culture conditions in which a physical support is removed.

The present disclosure relates to the use of RET, a transmembrane tyrosine kinase receptor, agonist molecules for Haematopoietic Stem Cell (HSC) expansion protocols and HSC transplantation therapy. RET signaling molecules are expressed by HSCs and Ret ablation leads to reduced HSC numbers. RET signals provide HSCs with critical Bcl2 and Bcl2l1 surviving cues, downstream of p38/MAP kinase and CREB activation. Accordingly, enforced expression of RET down-stream targets, Bcl2 or Bcl2l1, is sufficient to restore the activity of Ret null progenitors in vivo. Remarkably, activation of RET improves HSC survival or maintenance and in vivo transplantation efficiency, thus opening new horizons to the usage of RET agonist in HSC expansion and transplantation protocols. Additionally, the present disclosure describes a kit comprising RET agonist molecules, to be used in HSC expansion protocols and transplantation therapy.

A method for differentiation of neural stem cells, neurons and GABAergic neurons from mesenchymal stem cells includes culturing the mesenchymal stem cells in a medium containing SB431542, Noggin and LDN193189. By this method, the mesenchymal stem cells are differentiated into neural stem cells, neurons and GABAergic neurons at a high transformation rate without gene manipulation.

The present invention relates to a method of producing organoids, said method comprising or consisting of: (a) seeding a plurality of tissue-specific precursor cells into a container; (b) allowing to occur (i) aggregation of said cells; and (ii) maturation of the aggregate formed in (i) into a single organoid; wherein said method does not comprise embedding of said cells or said aggregates into a gel.

Described herein are chemically defined, adherent culture protocols for generating functional motor neurons characteristic of diverse hindbrain and spinal cord regions, with high efficiency.

The invention relates to improved culture methods for expanding epithelial stem cells and obtaining organoids, to culture media involved in said methods, and to uses of said organoids.

Methods are provided for the production of retinal ganglion (RG) progenitor cells and mature RG cells from pluripotent stem cells optionally under feeder-free conditions, and further optionally under xeno-free conditions. Additionally provided are compositions of RG progenitor cells and mature RG cells, as well as methods of use thereof including therapeutic use thereof. Exemplary methods may produce substantially pure populations and cultures of RG progenitor cells and mature RG cells.