The invention provides universally acceptable “off-the-shelf” hypoimmune pluripotent (HIP) cells and hypoimmune chimeric antigen receptor T (CAR-T) cells derived from the HIP cells. The engineered therapeutic cells can be administered to subjects as an adoptive cell-based immunotherapy to treat cancer.

An objective of the present invention is to provide vectors for conveniently and efficiently producing ES-like cells in which foreign genes are not integrated into the chromosome. The present inventors discovered methods for producing ES-like cells from somatic cells using chromosomally non-integrating viral vectors. Since no foreign gene is integrated into the chromosome of the produced ES-like cells, they are advantageous in tests and research, and immunological rejection and ethical problems can be avoided in disease treatments.

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.

The present invention relates to a medium for inducing differentiation of dedifferentiated stem cells into mesenchymal stem cells, a method for preparing mesenchymal stem cells from dedifferentiated stem cells by using the same, and mesenchymal stem cells prepared by using the same. The mesenchymal stem cells prepared using the above medium and method can be differentiated into various target cells, and thus can be useful as a cell therapeutic agent for congenital and acquired musculoskeletal diseases and injuries.

This present disclosure relates to methods and compositions comprising biologically active nanoparticle formulations of MYC protein. Provided are methods of making the nanoparticle formulations and methods of using the nanoparticle formulations for treatment.

The invention provides universally acceptable “off-the-shelf” hypoimmunogenic pluripotent cells and differentiated cardiac, endothelial, neuronal, islet, or retinal pigment cells thereof. Such hypoimmune cells are used to treat patients in need thereof. The cells lack major immune antigens that trigger immune responses and are engineered to avoid phagocytic endocytosis.

Provided is an isolated human naive pluripotent stem cell (PSC), wherein: (i) when the naive PSC is a female PSC, then said naive female PSC has two unmethylated alleles of an X-inactive specific transcript (XIST) gene; and (ii) when said naive PSC is a male PSC, then said naive male PSC has an unmethylated allele of said XIST gene. Also provided is a culture medium which comprises an ERK1/2 inhibitor, a GSK3beta inhibitor, a p38 inhibitor, a JNK inhibitor, a STAT3 activator and at least one agent selected from the group consisting of: bFGF, TGFbeta 1, a PKC inhibitor, a ROCK inhibitor and a NOTCH inhibitor; or at least agent selected from the group consisting of: a TGFR inhibitor, a FGFR inhibitor, a PKC inhibitor, a ROCK inhibitor and a NOTCH inhibitor.

A culture medium is provided which is capable of establishing expanded potential stem cell (EPSC) lines which resemble naive or ground state ES cells, but are also able to differentiate into placenta trophoblasts and the embryo proper. Methods are provided using the medium for the in vitro conversion and maintenance of cells, including pluripotent cells into EPSCs.

Disclosed herein are methods of generating induced pluripotent stem cells. The method involves providing a quantity of somatic or non-embryonic cells, contacting the contacting the somatic or non-embryonic cells with a quantity of one or more programming factors and one or more RNA molecules, and culturing the somatic or non-embryonic cells for a period of time sufficient to generate at least one induced pluripotent stem cell. Various reprogramming factors and RNA molecules for use in the methods are disclosed herein. Also disclosed are cell lines and pharmaceutical compositions generated by use of the methods.

The present disclosure relates to a differentiation totipotent stem cell having suppressed immune rejection, by having expression of Beta-2 microglobulin (B2M) gene suppressed, and expressing Cluster of Differentiation 24 (CD24), immune cell, and pharmaceutical composition including the same.