A method for inducing immature oocytes includes introducing four genes consisting of FIGLA, NOBOX, LHX8 and TBPL2, or transcripts or expressed proteins thereof, into at least one type of cell selected from the group consisting of pluripotent stem cells, epiblast-like cells and primordial germ cells. A method for producing mature oocytes includes introducing four genes consisting of FIGLA, NOBOX, LHX8 and TBPL2, or transcripts or expressed proteins thereof, into at least one type of cell selected from the group consisting of pluripotent stem cells, epiblast-like cells and primordial germ cells, and co-culturing the cell obtained after the introduction and ovarian somatic cells.

The present invention provides an improved method of producing highly pure retinal pigment epithelial (RPE) cells by differentiation of pluripotent stem cells.

Disclosed herein are chimeric blastocysts, such as chimeric blastocysts derived from a host blastocyst from a first mammalian species and having donor pluripotent stem cells from a second mammalian species, wherein the donor pluripotent stem cells have reduced expression or reduced biological activity of one or more proteins in the TLR/NF-kB signaling pathway or the p53 pathway. Methods of preparing chimeric blastocysts and methods of obtaining mammalian organs and tissues are also provided.

This document relates to methods and materials for treating a mammal having an autoimmune disease. For example, materials and methods for producing a T cell comprising a FOXP3 polypeptide and one or more transcription factors are provided herein. Methods and materials for treating a mammal having an autoimmune disease comprising administering to a mammal having an autoimmune disease an effective amount of a T cell are also provided herein.

Disclosed herein is a method for manufacturing a population of human insulin producing cells from non-pancreatic β-cells, wherein the resulting insulin producing cells have increased insulin content, or increased glucose regulated secretion of insulin, or a combination of both.

Provided are compositions and methods comprising a FOXO inhibitor for increasing proliferation of Lgr5+ cochlear cells, and related methods of treating hearing loss.

An object of the present invention is to provide a novel method for sorting cardiomyocytes. Another object of the present invention is to provide a method for producing high-purity cardiomyocytes and a kit used therefor. The present invention provides a method for sorting cardiomyocytes, comprising a step of introducing miRNA-responsive mRNA into a cell group, wherein the miRNA-responsive mRNA consists of a sequence comprising the following (i) and (ii): (i) a nucleic acid specifically recognized by miRNA specifically expressed in cardiomyocytes, and (ii) a nucleic acid corresponding to the coding region of a gene, wherein translation of (ii) the nucleic acid corresponding to the coding region of a gene into protein is regulated by the nucleic acid sequence in (i) above, thereby achieving the aforementioned objects.

A method is provided for producing oligodendrocyte-like cells, including (A) increasing abundances of oligodendrocyte transcription factor 2 (OLIG2) mutant and SRY-box transcription factor 10 (SOX10) in human pluripotent stein cells and (B) culturing the human pluripotent stem cells in which the abundances of the OLIG2 mutant and the SOX10 are increased and consequently differentiating the human pluripotent stem cells into oligodendrocyte-like cells, in which the OLIG2 mutant lacks a serine residue of wild-type OLIG2 at position 147, or the serine residue of the wild-type OLIG2 at position 147 is substituted with an amino acid other than serine.

A method is provided for producing astrocyte-like cells, including (A) upregulating transcription factors including SRY-box transcription factor 9 (SOX9), nuclear factor IA (NFIA), and nuclear factor IB (NFIB) in human pluripotent stein cells and (B) culturing the human pluripotent stem cells, in which the transcription factors are upregulated, and consequently differentiating the human pluripotent stern cells into astrocyte-like cells.

A method for producing nerve cells includes introducing NGN1 as a differentiation factor into stem cells. A method for producing nerve cells includes introducing only NeuroD4 as a differentiation factor into stem cells. A method for producing motor neurons includes introducing NGN2, ISL2, and LHX4 as differentiation factors into stem cells. A method for producing motor neurons includes introducing NGN1, ISL2, and LHX4 as differentiation factors into stem cells. A method for producing motor neurons includes introducing NeuroD4, ISL2, and LHX4 as differentiation factors into stem cells. A method for screening neurological disease therapeutic drugs includes introducing a differentiation factor into pluripotent stem cells derived from neurological disease patients and differentiating the cells into neural cells, applying a candidate drug to cells during differentiation of the pluripotent stem cells into the neural cells or to the differentiated neural cells, and screening the candidate drug on the basis of on the neural cells.