The present invention relates to a composition for enhancing reprogramming efficiency from somatic cells to induced pluripotent stem cells, comprising an mTOR activator, and a method for enhancing reprogramming efficiency by using same. In the method, reprogramming factors including OCT4, SOX2, c-Myc, and KLF4 are transduced into somatic cells, followed by treatment with an mTOR activator, thereby remarkably increasing reprogramming efficiency into induced pluripotent stem cells. Therefore, the composition and method can be used for effectively inducing the reprograming of somatic cells into induced pluripotent stem cells.

Described herein are methods and compositions related to generation of induced pluripotent stem cells (iPSCs). Improved techniques for establishing highly efficient, reproducible reprogramming using non-integrating episomal plasmid vectors. Using the described reprogramming protocol, one is able to consistently reprogram non-T cells with close to 100% success from non-T cell or non-B cell sources. Further advantages include use of a defined reprogramming media E7 and using defined clinically compatible substrate recombinant human L-521. Generation of iPSCs from these blood cell sources allows for recapitulation of the entire genomic repertoire, preservation of genomic fidelity and enhanced genomic stability.

The invention provides compositions and methods for manufacturing pluripotent cells. In particular, the invention provides improved culture platforms for manufacturing pluripotent cells with ground state pluripotency.

The present invention relates to compositions, kits and methods for making and using RNA compositions comprising in vitro-synthesized ssRNA inducing a biological or biochemical effect in a mammalian cell or organism into which the RNA composition is repeatedly or continuously introduced. In certain embodiments, the invention provides compositions and methods for changing the state of differentiation or phenotype of a human or other vertebrate cell. For example, the present invention provides mRNA and methods for reprogramming cells that exhibit a first differentiated state or phenotype to cells that exhibit a second differentiated state or phenotype, such as to reprogram human somatic cells to pluripotent stem cells.

Compositions and provided to induce cells of the inner ear to renter the cell cycle and to proliferate. In particular, hair cells are induced to proliferate by administration of a composition which activates the Myc and Notch. Supporting cells are induced to transdifferentiate to hair cells by inhibition of Myc and Notch activity or the activation of Atoh1. Methods of treatment include the intracellular delivery of these molecules to a specific therapeutic target.

The present disclosure relates to methods and compositions for reprogramming cells to a pluripotent state. In particular, it relates to an integration- and feeder cell-free method for reprogramming primary human fibroblast cells to induced pluripotent stem cells (iPSCs).

The invention provides compositions and methods for manufacturing pluripotent cells. In particular, the invention provides improved culture platforms for manufacturing pluripotent cells with ground state pluripotency.

The present invention aims to provide a method for preparing urothelial cells that can be applied to the treatments of urologic diseases, particularly, diseases caused by urothelial cell damage, diseases caused by loss of urothelial cells and dysfunction, and the like, urothelial cells prepared by said method, and a medium for inducing (generating) urothelial cells. Urothelial cells prepared by a method for inducing a urothelial cell, including a step of introducing at least one member selected from the group consisting of

FOXA1 (Forkhead box A1) gene or an expression product thereof,
TP63 (tumor protein P63) gene or an expression product thereof,
MYCL (L-Myc) gene or an expression product thereof, and
KLF4 (Kruppel-like factor 4) gene or an expression product thereof
to a mammalian somatic cell as an exogeneous factor can be applied to the treatment of urologic diseases.

Provided is reproducible means that enables production of nucleus pulposus progenitor cells (preferably, an active nucleus pulposus progenitor cell phenotype) from desired cells such as terminally differentiated cells and stem cells having pluripotency or multipotency. A nucleus pulposus progenitor cell inducer according to the present invention comprising an effective amount of a gene of Brachyury (T) or a homolog thereof, at least one selected from the group consisting of SRY-box6 (SOX6) or a homolog thereof and Forkhead Box Q1 (FOXQ1) or a homolog thereof, and MYC Proto-Oncogene, BHLH Transcription Factor (cMyc) or a homolog thereof (nucleus pulposus progenitor cell master regulator transcription factor), or a product thereof.

The invention relates to a method for reprogramming cells from aged donors or senescent cells to pluripotent cells that have lost marks of senescence. In particular, the invention relates to an ex vivo method for preparing induced pluripotent stem cells (iPSCs) from a target cell population comprising cells from aged donors or senescent cells, said method comprising the steps of culturing said target cell population under appropriate conditions for reprogramming said cells into iPSCs, wherein said appropriate conditions comprises increasing expression in said target cells, of at least the following reprogramming factors: Oct4, Klf4, Sox2, c-Myc, Lin28 and, optionally Nanog.