The present invention provides a method of improving iPS cell establishment efficiency, comprising contacting a protein involved in primitive streak (PrS) formation, preferably Foxh1, or a nucleic acid that encodes the same with a somatic cell in a nuclear reprogramming step. Also provided is a method of producing an iPS cell, comprising contacting the protein involved in PrS formation or a nucleic acid that encodes the same, and nuclear reprogramming substance(s) with a somatic cell.

Described is an agent for inducing viral vector production which includes a cell growth inhibitor A. The cell growth inhibitor A includes a compound which inhibits progression of the cell cycle in G2 phase or M phase. Additionally, a method of producing a viral vector and a method of inducing viral vector production using the same are described. The methods include introducing a nucleic acid into a cell and adding the cell growth inhibitor A to the cell between 6 hours before and 6 hours after the time of introducing the nucleic acid.

Substantially homogenous cells populations which co-express CD49c, CD90 and telomerase are made. In one embodiment, humans suffering from a degenerative, traumatic, acute injury, cardiac or neurological condition are treated with the substantially homogenous cells populations which co-express CD49c, CD90 and telomerase. In another embodiment, committed progenitor cells are made are made by selecting from a cultured source of a cell population which co-express CD49c and CD90 and modifying the cell population. The committed progenitor cells can be employed to treat a human suffering from a degenerative, traumatic, acute injury, cardiac or neurological condition and to formulate pharmaceutical compositions. In a further embodiment, a substantially homogenous population of cells which co-express CD49c, CD90 and at least one cardiac-related transcription factor is made and can be used to treat a human suffering from a cardiac condition.

Isolated CDCA1-derived epitope peptides having Th1 cell inducibility are disclosed herein. Such peptides can be recognized by MHC class II molecules and induce Th1 cells. In preferred embodiments, such a peptide of the present invention can promiscuously bind to MHC class II molecules and induce CDCA1-specific cytotoxic T lymphocytes (CTLs) in addition to Th1 cells. Such peptides are thus suitable for use in enhancing immune response in a subject, and accordingly find use in cancer immunotherapy, in particular, as cancer vaccines. Also disclosed herein are polynucleotides that encode any of the aforementioned peptides, APCs and Th1 cells induced by such peptides and methods of induction associated therewith. Pharmaceutical compositions that comprise any of the aforementioned components as active ingredients find use in the treatment and/or prevention of cancers or tumors.

Disclosed herein are compositions and formulations containing a TATk-CDKL5 fusion protein. Also disclosed are methods of producing a TATk-CDKL5 fusion protein from vectors containing a TATk-CDKL5 cDNA and methods of transducing cells with the vectors containing a TATk-CDKL5 cDNA and the TATk-CDKL5 fusion protein.

The present invention provides novel methods for improving the efficiency of artificial activation of unfertilized mammalian oocytes by reducing the intracellular concentration of Zn.sup.2+ in the oocyte. The methods of the invention may additionally comprise a preceding step of increasing the intracellular concentration of Ca.sup.2+ in the oocyte prior to reduction of the intracellular Zn.sup.2+ concentration. The invention further provides unfertilized oocytes activated by the disclosed methods and viable mammalian animals produced from unfertilized oocytes activated by the disclosed methods.

The present invention provides a method for increasing the expression of MAFA in cells expressing markers characteristic of the pancreatic endocrine lineage comprising the steps of culturing the cells expressing markers characteristic of the pancreatic endocrine lineage in medium comprising a sufficient amount of a cyclin-dependent kinase inhibitor to cause an increase in expression of MAFA.

The present invention provides a method for increasing the expression of MAFA in cells expressing markers characteristic of the pancreatic endocrine lineage comprising the steps of culturing the cells expressing markers characteristic of the pancreatic endocrine lineage in medium comprising a sufficient amount of a cyclin-dependent kinase inhibitor to cause an increase in expression of MAFA.

Isolated CDCA1-derived epitope peptides having Th1 cell inducibility are disclosed herein. Such peptides can be recognized by MHC class II molecules and induce Th1 cells. In preferred embodiments, such a peptide of the present invention can promiscuously bind to MHC class II molecules and induce CDCA1-specific cytotoxic T lymphocytes (CTLs) in addition to Th1 cells. Such peptides are thus suitable for use in enhancing immune response in a subject, and accordingly find use in cancer immunotherapy, in particular, as cancer vaccines. Also disclosed herein are polynucleotides that encode any of the aforementioned peptides, APCs and Th1 cells induced by such peptides and methods of induction associated therewith. Pharmaceutical compositions that comprise any of the aforementioned components as active ingredients find use in the treatment and/or prevention of cancers or tumors.

Methods for increasing glucose induced insulin secretion in an insulin secreting cell by inducing senescence in the cell are provided. Further, methods for treating diabetes, by providing cells with increased glucose induced insulin secretion to a subject, as well as a population of modified insulin secreting cells are provided.