Disclosed herein are synthetic leathers, artificial epidermal layers, artificial dermal layers, layered structures, products produced therefrom and methods of producing the same.

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.

Disclosed herein are cell cultures comprising dorsal and/or ventral PDX1-positive foregut endoderm cells and methods of producing the same. Also disclosed herein are cell populations comprising substantially purified dorsal and/or ventral PDX1-positive foregut endoderm cells as well as methods for enriching, isolating and purifying dorsal and/or ventral PDX1-positive foregut endoderm cells from other cell types. Methods of identifying differentiation factors capable of promoting the differentiation of dorsal and/or ventral PDX1-positive foregut endoderm cells, are also disclosed.

The present invention relates to inter alia, methods for the generation and maintenance of Mesoderm-derived ISL1+ Multipotent Progenitors (IMPs), the production of a number of pluripotent cells including and epicardial pluripotent cells (EPCs) and using these cells to produce endothelial cells, cardiomyocytes, smooth muscle cells, vascular cells and other cells and related methods as otherwise disclosed herein. The invention also relates to compositions comprising a population of cells.

The present invention is directed to a method of producing compositions derived from culturing cells under hypoxic conditions on a biocompatible surface in vitro. The culturing method produces both an extracellular matrix composition and a conditioned culture medium composition, which may be used separately or in combination to obtain physiologically acceptable compositions useful in a variety of medical and therapeutic applications.

The present invention provides a method of constituting a tissue construct in vitro using a tissue without depending on scaffold materials.

A method of integrating a biological tissue with a vascular system in vitro, comprising coculturing a biological tissue with vascular cells and mesenchymal cells. A biological tissue which has been integrated with a vascular system by the above-described method. A method of preparing a tissue or an organ, comprising transplanting the biological tissue described above into a non-human animal and differentiating the biological tissue into a tissue or an organ in which vascular networks have been constructed. A method of regeneration or function recovery of a tissue or an organ, comprising transplanting the biological tissue described above into a human or a non-human animal and differentiating the biological tissue into a tissue or an organ in which vascular networks have been constructed. A method of preparing a non-human chimeric animal, comprising transplanting the biological tissue described above into a non-human animal and differentiating the biological tissue into a tissue or organ in which vascular networks have been constructed. A method of evaluating a drug, comprising using at least one member selected from the group consisting of the biological tissue described above, the tissue or organ prepared by the method described above, and the non-human chimeric animal prepared by the method described above. A composition for regenerative medicine, comprising a biological tissue which has been integrated with a vascular system by the method described above.

Disclosed herein are synthetic leathers, artificial epidermal layers, artificial dermal layers, layered structures, products produced therefrom and methods of producing the same.

Disclosed are media, methods, systems and kits for differentiating hematopoietic progenitor cells from a population of early mesoderm cells under conditions that exclude any combination of certain exogenously added agonists of growth factor signaling. The population of early mesoderm cells may be derived from pluripotent stem cells, and the hematopoietic progenitor cells differentiated under the disclosed conditions are multipotent. The culture conditions disclosure herein may form serum-free workflows and/or workflows free of stroma and/or feeder cells.

The invention includes a method of evaluating a bovine embryo by fertilizing an egg obtained from a first bovine heterozygote of a recessive lethal haplotype with sperm cells obtained from a second bovine heterozygote of the recessive lethal haplotype; producing the embryo from the fertilized egg, wherein the embryo is homozygous for the lethal haplotype; establishing a cell culture from the embryo; collecting a plurality of cultured cells; and obtaining omics data, comprising one or more features, from the plurality of cultured cells.

A method of generating retinal pigment epithelial (RPE) cells is disclosed. The method comprises: (a) culturing human pluripotent stem cells in a human feeder cell-conditioned medium to obtain a cultured population of human pluripotent stem cells; (b) culturing said cultured population of human pluripotent stem cells in a medium comprising a differentiating agent to obtain differentiating cells; and (c) culturing said differentiating cells in a medium comprising one or more members of the TGFβ superfamily.