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.

Methods, compositions and cells are provided that identify and isolate a population of adult non-embryonic progenitor cells having multilineage potential, physical diameters of about 2 μm to about 8 μm in size or about 4 μm to about 6 μm, and expressing at least one of the stem cell associated genes among Oct-4, KLF-4, Nanog, Sox-2, Rex-1, GDF-3 or Stella. Methods are also provided that identify and isolate populations, which are subsets or subpopulations of progenitor adult stem cells within the population of the adult stem cells which is a heterogeneous population, the methods including contacting the adult stem cells with a ligand specific for at least one of: CD99, tetraspan, ICAM4, full-length MUC1, and truncated MUC1 receptor, in which a presence of a surface protein on the cells that bind to the ligand identifies the population which is the subset of the differentiated progenitor adult stem cells.

Disclosed herein are non-naturally existing novel platelet variants or platelet like cells (PLCs), extracellular vesicles (EVs), and derivatives thereof. Composition comprising the same and methods for treatment or prevention of diseases or disorders therewith is also disclosed.

The present invention provides recombinant adenoviral compositions and methods for their use in treating disorders associated with epithelial tissues.

Methods for generating high-yield high-purity cardiac fibroblasts are described. Differentiation methods comprising thematically defined culture conditions and methods for in vitro maintenance of human pluripotent stern cell-derived cardiac fibroblasts are also provided.

The method relates to an in vitro method of producing a (three dimensional) neural tissue composition, the method comprising the steps of re-suspending cells that are obtained by culturing pluripotent stem cells in a neural induction medium in cell culture substrate and culturing said resuspended cells in the presence of an neural differentiation medium.

There is provided a production method for microglia, including a step of introducing, into pluripotent stem cells, a nucleic acid including an open reading frame of a transcription factor that increases expression of a Complement C3 (C3) gene. In the production method, the transcription factor is selected from the group consisting of SPI1, CEBPA, PTAFR, FLI1, MEF2C, EGR2, RUNX1, TNF, CEBPB, IKZF1, KLF6, NFIC, ELF4, PAX8, PRDM1, MEF2A, and NR4A3.

Described in the present application are methods for preparing populations of hematopoietic stem cells (HSCs), e.g., autologous and/or allogenic HSCs, using mechanical stretching or Trpv4 agonisists, and methods of use of the HSCs in transplantation. In some embodiments, the methods include providing a population comprising hemogenic endothelial (HE) cells, and (i) contacting the HE cells with an amount of an agonist of transient receptor potential cation channel-subfamily vanilloid member 4 (Trpv4); and/or (ii) subjecting the cells to cyclic 2-dimensional stretching, for a time and under conditions sufficient to stimulating endothelial-to-HSC transition. Also provided herein are methods for treating subjects who have, bone marrow, metabolic, and immune diseases; the methods include administering to the subject a therapeutically effective amount of hematopoietic stem cells (HSCs) obtained by a method described herein.

The present invention provides recombinant adenoviral compositions and methods for their use in treating disorders associated with epithelial tissues.

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.