The present invention provides methods to promote differentiation of pluripotent stem cells to pancreatic endoderm cells expressing PDX1, NKX6.1, and HB9. In particular, the methods encompass culturing Stage 4 to Stage 6 cells with a thyroid hormone (e.g. T3), an ALK5 inhibitor, or both.

Disclosed herein are methods for generating SC- cells, and isolated populations of SC- cells for use in various applications, such as cell therapy.

The current invention provides for methods and systems of inducing cell cycle exit and terminal differentiation in stem cells undergoing differentiation into various mature cell types in particular pancreatic endocrine cells. The current invention also provides for methods and systems of inducing differentiation of pancreatic endocrine cells from stem cells. The invention also provides for the cells produced by the methods that are suitable for transplantation or grafting into a subject for the prevention and/or treatment of disease, and useful for basic research and drug testing.

The present application provides non-naturally occurring 3D brown adipose-derived stem cell (BADSC) aggregates, methods of making the 3D BADSC aggregates, and methods of using the 3D BADSC aggregates.

Methods of developing and using cell lines, such as stem cell lines, for therapeutic or cosmetic use. In one embodiment, the cell lines are used to treat a wide range of degenerative and metabolic disorders including, but not limited to, obesity, diabetes, hypertension, and cardiac deficiency. Also described are methods of using such cell lines to screen for compounds that play a role in regulating a variety of processes.

Among the various aspects of the present disclosure is the provision of methods and compositions for the generation of cells of endodermal lineage and beta cells and uses thereof.

The present disclosure provides cell-based compositions for treating diabetes, methods for identifying cells that preferentially differentiate into endoderm cells, and methods for preparing insulin-producing pancreatic cells, as well as related methods of use for treating diseases related to insulin deficiency.

The present disclosure relates to methods and compositions using RAP, a derivative of RAP, a variant of RAP, or a fragment of RAP to inhibit LRP1, a myelin debris receptor. The methods and compositions involve increasing, promoting, restoring, and/or enhancing differentiation of oligodendrocyte progenitor cells, myelin protein expression, mature oligodendrocyte marker expression, and/or myelination. The methods and compositions disclosed herein inhibit or block pathological activation of RhoA in OPCs. The methods and compositions also involve alleviating one or more symptoms of MS and treating MS, including slowing or stopping MS progression.

This invention provides a method for preparing a brown adipocyte from a somatic cell of a mammal by introducing at least one brown adipocyte-related gene or expression product thereof and at least one reprogramming-related gene or expression product thereof into the somatic cell, the brown adipocyte-related gene being at least one member selected from the group consisting of PRDM16(P) and C/EBP(C), the reprogramming-related gene being at least one member selected from the group consisting of Myc family genes (c-Myc(M), N-Myc, L-Myc(L), S-Myc, and B-Myc), GLIS family genes (GLIS1 (G), GLIS 2, and GLIS 3), Klf family genes (KLF1, KLF2, KLF3, KLF4(K), KLF5, KLF6, KLF7, KLF8, KLF9, KLF10, KLF11, KLF12, KLF13, KLF14, KLF15, KLF16, and KLF17), Oct family genes, Sox family genes, and Lin-28.

Disclosed herein are methods, compositions, kits, and agents useful for inducing cell maturation, and isolated populations of SC- cells for use in various applications, such as cell therapy.