Disclosed herein are methods for the in vitro differentiation of a precursor cell into definitive endoderm, which may further be differentiated into a human colonic organoid (HCO), via modulation of signaling pathways. Further disclosed are HCOs and methods of using HCOs, which may be used, for example, for the HCOs may be used to determine the efficacy and/or toxicity of a potential therapeutic agent for a disease selected from colitis, colon cancer, polyposis syndromes, and/or irritable bowel syndrome.

Described herein are methods, compositions, and kits for directed differentiation of human pluripotent stem cells, neuromesodermal progenitors, and neural stem cells into biomimetic neural tissues comprising one or more rosette structures. Preferably, the methods provided herein direct differentiation of human pluripotent stem cells, neuromesodermal progenitors, and neural stem cells into biomimetic neural tissues comprising a singular neural rosette structure that is comparable to at least a portion of the developing human neural tube. Also described are engineered neural tissue preparations comprising biomimetic neural tissues comprising a singular rosette structure having regional neural progenitor phenotypes.

Provided is a method for inducing differentiation of neural crest cells into neurons of the autonomic nervous system, the method including the step of culturing neural crest cells in the presence of at least one of a BMP signaling pathway activator, an SHH signaling pathway inhibitor, and a Wnt signaling pathway inhibitor.

The present invention relates to a functional 3D neuronal model based on ultrashort self-assembling peptide scaffolds in accordance with the present invention, and to a method of preparing such a model. The models are suitable for in vitro drug testing, cellular replacement therapies as well as other applications.

This invention concerns a new method for differentiating oral neuroectodermal stem cells (CSO-NE), in particular human gingival neuroectodermal stem cells (CSGh), into oligodendrocytes (OL), and their use in the repair of the nervous system, in particular of head injuries.

The present invention provides a method for producing neural cells or a neural tissue, including the following steps (1)-(3): (1) a first step of culturing pluripotent stem cells in the absence of feeder cells and in a medium containing 1) a TGFβ family signal transduction pathway inhibiting substance and/or a Sonic hedgehog signal transduction pathway activating substance, and 2) a factor for maintaining undifferentiated state, (2) a second step of culturing the cells obtained in the first step in suspension to form a cell aggregate, and (3) a third step of culturing the aggregate obtained in the second step in suspension in the presence or absence of a differentiation-inducing factor to obtain an aggregate containing neural cells or a neural tissue.

The present invention provides a method for producing retinal cells or a retinal tissue, comprising the following steps (1)-(3): (1) a first step of culturing human pluripotent stem cells in the absence of feeder cells and in a medium comprising a factor for maintaining undifferentiated state, (2) a second step of culturing the pluripotent stem cells obtained in the first step in suspension in the presence of a Sonic hedgehog signal transduction pathway activating substance to form a cell aggregate, and (3) a third step of culturing the aggregate obtained in the second step in suspension in the presence of a 1) a BMP signal transduction pathway activating substance to obtain an aggregate containing retinal cells or a retinal tissue.

A catalyst support comprising at least 95% silicon carbide, having surface areas of ≤10 m.sup.2/g and pore volumes of ≤1 cc/g. A method of producing a catalyst support, the method including mixing SiC particles of 0.1-20 microns, SiO.sub.2 and carbonaceous materials to form an extrusion, under inert atmospheres, heating the extrusion at temperatures of greater than 1400° C., and removing residual carbon from the heated support under temperatures below 1000° C. A catalyst on a carrier, comprising a carrier support having at least about 95% SiC, with a silver solution impregnated thereon comprising silver oxide, ethylenediamine, oxalic acid, monoethanolamine and cesium hydroxide. A process for oxidation reactions (e.g., for the production of ethylene oxide, or oxidation reactions using propane or methane), or for endothermic reactions (e.g., dehydrogenation of paraffins, of ethyl benzene, or cracking and hydrocracking hydrocarbons).

Compositions and methods for administering optogenetically-activatable cells for repair of the nervous system after injury or disease are contemplated herein.

The method relates to an in vitro method of producing a (three dimensional) neural tissue composition, the method comprising the steps of re-suspending cells that are obtained by culturing pluripotent stem cells in a neural induction medium in cell culture substrate and culturing said resuspended cells in the presence of an neural differentiation medium.