Provided are: a composition for inducing direct conversion from somatic cells into common myeloid progenitor cells, the composition including a chemical cocktail; a method of direct conversion of somatic cells into common myeloid progenitor cells and macrophages by using the composition; common myeloid progenitor cells or macrophages prepared by the method; a pharmaceutical composition for preventing or treating fibrosis or scars, cell therapeutics, a composition for screening drugs, and a 3D printable biomaterial composition for fabricating artificial tissues, each using the common myeloid progenitor cells or the macrophages.

The present invention relates to stem cells derived from a multi-layered cellular structure or blastocyst structure, compositions comprising the same, and methods for obtaining the same.

The present invention relates to an AG-haESCs in which H19 DMR and IG-DMR are knocked out, a method for preparing the AG-haESCs, and use of the AG-haESCs in constructing a genetically modified semi-cloned animal and a library of a genetically modified semi-cloned animal. The AG-haESCs is capable of obtaining characteristics resembling a round spermatid, and upon injection into an oocyte, a viable SC mouse is stably obtained. The present invention is capable of being effectively used in multi-gene genetic manipulation, advancing the acquisition of animals with multiple genetic modifications.

It is an object to provide a culture method which is capable of maintaining and/or culturing iPS cell-derived intestinal stem cells, while maintaining the properties of intestinal stem cells. The induced pluripotent stem cell-derived intestinal stem cell-like cells are cultured in the presence of a GSK-3β inhibitor, a histone deacetylation inhibitor, and a serum replacement, or in the presence of a GSK-3β inhibitor and a serum replacement. Preferably, the culture is carried out under conditions in which one or more compounds selected from the group consisting of an epidermal growth factor, a TGFβ receptor inhibitor and a fibroblast growth factor are further present.

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.

Provided are compositions and methods comprising an epigenetic agent and a Wnt agonist for increasing proliferation of cochlear supporting cells or vestibular supporting cells, and related methods of treating inner ear hearing or balance disorders.

The present invention relates to a method for ex vivo generating and expanding γδ Foxp3.sup.+ regulatory T cells, and therapeutic uses thereof. The inventors performed the induction of Foxp3+ expression in ex vivo human induced tumor-antigen specific CD4− TCRγδ unrestricted T cells and the induction of autologous CD8-mediated T-cell responses against tumor-antigen specific FOXP3 expressing CD4+ TCRγδ unrestricted T cells. The inventors developed a method to ex vivo generated and expanded antigen specific Foxp3 expressing CD3+ TCRγδ+ unrestricted T cells, committed to exclusively exert regulatory activity, whichever culture condition of stimulation is. In particular, the present invention relates to a method for generating ex vivo γδ Foxp3+ regulatory T cells having the following phenotype: CD3+ TCRγδ+ Foxp3+.

Provided is a method for culturing immature oocytes. The method can promote in vitro maturation of the immature oocytes, and specifically comprises using follicular cells and a culture medium for culturing same. The culture medium for culturing the follicular cells contains CNP or variants thereof or analogues thereof and an HDAC (histone deacetylase) inhibitor. Also provided are the in vitro maturation culture medium containing CNP or variants thereof or analogues thereof and the HDAC inhibitor, and related compositions thereof, and the use of the above medium, culture medium and compositions in the promotion of in vitro maturation of the immature oocytes.

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.

Disclosed herein are lymphocytes for use in adoptive cell transfer that have chemically- or genetically-inhibited Sirt2 expression. Also disclosed are methods of inhibiting or ablating Sirt2 expression in a T cell ex vivo. Also disclosed are methods of treating cancer in a subject that involves collecting lymphocytes, such as tumor infiltrating lymphocytes (TILs), from the subject, treating the lymphocytes ex vivo to inhibit Sirt2 expression, and transferring the modified lymphocytes back to the subject.