The present invention provides genetic markers for identifying engraftable human cardiac ventricular progenitor cells. The engraftment markers of the invention include angiogenic markers and extracellular matrix markers. Human ventricular progenitor cells expressing these markers are capable of forming ventricular tissue in vivo that is vascularized and supported by an extracellular matrix. Methods of engrafting human cardiac ventricular progenitor cells by transplanting into a subject progenitor cells that express the engraftment markers are also provided.

Provided are compositions for long-term maintenance of functional hepatocytes in culture, a method for improved maintenance of functional hepatocytes in vitro, and functional hepatocytes cultures according to the methods. The culture compositions include at least: one activator of adenylate cyclase, one TGFβ inhibitor, one Notch inhibitor, one Wnt inhibitor, and/or one BMP inhibitor. The combinations of compounds are added to any hepatocyte cell culture medium in an effective amount to maintain functional hepatocyte function in vitro, long term. The hepatocytes can be used for in vitro drug research and to model liver disease.

The present invention relates to a culture media system that is useful for the isolation and epigenetically stable propagation of normal stem cells in culture which are derived from columnar epithelial tissues and cancer stem cells from epithelial cancers. In certain embodiments, the culture system is a feeder-free system.

Disclosed herein are cell cultures and enriched cell populations of endocrine precursor cells, immature pancreatic hormone-expressing cells and mature pancreatic hormone-expressing cells. Also disclosed herein are methods of producing such cell cultures and cell populations.

The present invention relates to a method for preparing a human intestinal epithelial model. The human intestinal epithelial model, prepared by the method according to the present invention, has all characteristics of goblet cells, enteroendocrine cells, and Paneth cells, and thus can highly mimic the function of actual human intestinal cells, so that the human intestinal epithelial model can be effectively used for development of new drugs, evaluation of drug absorption and toxicity, or evaluation of engraftment of intestinal microorganisms, or as a composition for in vivo transplantation.

The present invention relates to a method for preparing a human intestinal epithelial model. The human intestinal epithelial model, prepared by the method according to the present invention, has all characteristics of goblet cells, enteroendocrine cells, and Paneth cells, and thus can highly mimic the function of actual human intestinal cells, so that the human intestinal epithelial model can be effectively used for development of new drugs, evaluation of drug absorption and toxicity, or evaluation of engraftment of intestinal microorganisms, or as a composition for in vivo transplantation.

Methods for expanding proliferating populations of neuronal subtype-specific progenitors and creating substantially pure populations of motor neurons are provided herein. In particular, the present invention provides methods for maintaining the unique gene profile and differentiation potential of neuronal subtype-specific progenitors, such as motor neuron progenitors and hindbrain serotonergic neural progenitors.

Disclosed herein are methods and compositions for stimulating angiogenesis, using cells descended from marrow adherent stromal cells that have been transfected with sequences encoding a Notch intracellular domain. Applications of these methods and compositions include treatment of ischemic disorders such as stroke.

A population of enteroendocrine cells (EEC) is obtained from a mammalian post-natal cell population, such as a population including post-natal stem cells, by treating the population with a plurality of small molecules that upregulate ChgA and promote differentiation of the cells to form the enteroendocrine cells. The upregulation of ChgA is such that the fraction of cells expressing CGA in the obtained cell population, as measured by a ChgA Immunostaining Assay, is at least about 1.5%. Small molecules that can be used to differentiate the post-natal cells into the enteroendocrine cells can include at least one of a Wnt activator, a Notch inhibitor, a Wnt inhibitor, a MEK/ERK inhibitor, a growth factor, a HDAC inhibitor, a Histone Methylation Inhibitor, a Tgf-β inhibitor, and a NeuroD1 activator. Also, the insulin expression of a population of mammalian cells is increased by treating the population with a plurality of small molecules that increase the insulin expression.

A culture medium comprising a WNT inhibitor, a SRC inhibitor and a protein kinase C (PKC) inhibitor is disclosed. The medium is devoid of an amount of GSK3beta inhibitor that increases beta-catenin translocation to the nucleus of a pluripotent stem cell being cultured in the culture medium. Uses thereof are also disclosed.