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 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.

Methods are disclosed herein for efficiently generating human induced pluripotent stem cells (iPSC) containing a nucleic acid including a doxycycline promoter operably linked to a nucleic acid encoding Cas9. These methods include transfecting a human somatic cell with a nucleic acid molecule comprising a doxycycline promoter operably linked to a nucleic acid encoding a Cas9, and constitutive promoter operably linked to a tetracycline responsive element and inducing the somatic cell to form an iPSC, thereby producing an iPSC that can undergo CRISPR/Cas9-mediated recombination at a high efficiency. The human iPSC, or a cell differentiated therefrom, is cultured in the presence of doxycycline to induce expression of the Cas9. These cells can then be used to target in any gene of interest by introducing nucleic acids encoding sgRNAs. Induced pluripotent stem cells produced by these methods are also disclosed.

The invention provides methods and compositions for producing a multi-layered cellular structure or blastocyst-like structure from a cell population of reprogrammed somatic cells.

Disclosed herein are methods of treating Canavan disease in a subject through restoring ASPA enzymatic activities in the subject by expressing exogenous wild type ASPA gene in the brain of the subject. Also disclosed are a process of producing neural precursor cells, including NPCs, glial progenitor cells and oligodendroglial progenitor cells, which express an exogenous wild type ASPA gene and the neural precursor cells produced by this process.

According to the present invention, there are provided a method for producing a human T cell, which comprises the steps of inducing an iPS cell from a human T cell, and differentiating the iPS cell into a T cell; a pharmaceutical composition comprising the T cell produced by the method; and a method for cell-based immunotherapy using the method.

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.

A method is provided for uniformly differentiating a pluripotent stem cell into a neural stem cell, with elimination of variation among cell strains or clones of the pluripotent stem cell and without formation of an embryoid body, regardless of the origin of the pluripotent stem cell

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 present invention relates to methods for reprogramming a somatic cell to pluripotency by administering into the somatic cell at least one or a plurality of potency-determining factors. The invention also relates to pluripotent cell populations obtained using a reprogramming method.