Methods of culturing embryonic stem cells, induced pluripotent stem cells and/or differentiated cells in culture medium comprising activin are described. In one aspect, the disclosure features a pluripotent human stem cell, wherein the stem cell comprises: (i) a genomic edit that results in loss of function of Cytokine Inducible SH2 Containing Protein (CISH) and (ii) a genomic edit that results in a loss of function of an agonist of the TGF beta signaling pathway, or a genomic edit that results in a loss of function of adenosine Ata receptor.

Compositions and methods are provided for production of cells useful in regenerative therapies.

The present invention provides for identification and use of small molecules to induce pluripotency in mammalian cells as well as other methods of inducing pluripotency.

Embodiments herein relate to in vitro production methods of hematopoietic stem cell (HSC) and hematopoietic stem and progenitor cell (HSPC) that have long-term multilineage hematopoiesis potentials upon in vivo engraftment. The HSC and HSPCs are derived from pluripotent stem cells-derived hemogenic endothelia cells (HE) by non-integrative episomal vectors-based gene transfer.

The invention relates to induced pluripotent stem cells that are generated from cells, for example Adult Stem Cells, that are conditionally-immortalisable. In particular, the invention relates to induced pluripotent stem cells generated from stem cell lines comprising a controllable transgene for conditional immortalisation, and the progeny of those induced pluripotent stem cells such as cells of the haematopoietic lineage. Induced pluripotent stem cells, haematopoietic progeny cells derived from those pluripotent cells, compositions comprising those cells, methods of making all of those cells, and uses of all of those cells are also described.

The present invention provides methods and compostions to improve the efficiency of somatic cell nuclear transfer (SCNT). There is increasing evidence that the epigenetic state of donor nuclei has a significant impact on potential of nuclear transfer embryos to develop into blastocysts, from which pluripotent stem cells are derived. Strategic application of histone agents, capable of altering epigenetic state such as methylation, allows zygotic activation and robust blastocyst generation.

Embodiments disclosed here are production methods and compositions of engineered immune cells, such as B or T lymphocytes, from limited lineage myeloid progenitor cells, or from pluripotent stem cells, or from multilineage hematopoietic progenitor cells comprising the addition of various cell differentiation transcription factors and inhibiting epigenetic histone methylations in said cells.

According to the present disclosure, provided is a method for manufacturing induced pluripotent stem cells including preparing cells and introducing RNA into the cells, wherein the RNA includes RNA encoding a reprogramming factor and wherein, in the RNA introduced into the cells, double-stranded RNA is substantially removed.

The present invention relates in part to methods for producing tissue-specific cells from patient samples, and to tissue-specific cells produced using these methods. Methods for reprogramming cells using RNA are disclosed. Therapeutics comprising cells produced using these methods are also disclosed.

Embodiments herein relate to in vitro production methods of hematopoietic stem cell (HSC) and hematopoietic stem and progenitor cell (HSPC) that have long-term multilineage hematopoiesis potentials upon in vivo engraftment. The HSC and HSPCs are derived from pluripotent stem cells-derived hemogenic endothelia cells (HE) by non-integrative episomal vectors-based gene transfer.