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.

Disclosed herein are compositions and methods for re-programming induced pluripotent stem cells, such as from a primed to naïve state. Further disclosed herein are methods of making said reprogrammed induced pluripotent stem cells by contacting the stem cells with another population of stem cells.

The present disclosure relates to compositions and methods for culturing a population of hepatocytes in vitro, comprising co-culturing the population of hepatocytes with at least one non-parenchymal cell population and incubating the co-culture in culture medium, wherein the co-culture is periodically incubated in culture medium that does not comprise serum (serum-free culture medium).

Cells derived from postpartum placenta and methods for their isolation are provided by the invention. The invention further provides cultures and compositions of the placenta-derived cells. The placenta-derived cells of the invention have a plethora of uses, including but not limited to research, diagnostic, and therapeutic applications.

Embodiments of the disclosure include methods and compositions for disc repair in a mammal using conditioned media (and/or one or more components therefrom) from fibroblasts that have been de-differentiated and cultured optionally with one or more particular conditions and/or compositions. In specific cases, fibroblasts that have been de-differentiated are exposed to hypoxia, histone deacetylase inhibitor(s), DNA methyltransferase inhibitor(s), or a combination thereof, and the conditioned media therefrom is provided in an effective amount to an individual.

Embodiments of the disclosure include methods and compositions for disc repair in a mammal using conditioned media (and/or one or more components therefrom) from fibroblasts that have been de-differentiated and cultured optionally with one or more particular conditions and/or compositions. In specific cases, fibroblasts that have been de-differentiated are exposed to hypoxia, histone deacetylase inhibitor(s), DNA methyltransferase inhibitor(s), or a combination thereof, and the conditioned media therefrom is provided in an effective amount to an individual.

The present invention relates to a 3 dimensional mimetic tissue structureAssembloid based on patient-derived multiple cell types to develop next generation organoid technology serving as a novel platform for new drug development and a disease model and a method of manufacturing the same, and more particularly, to a stem cell- or tumor cell-based 3D multicellular mimetic tissue structure manufactured by reconstituting epithelial or tumor cells with various cellular components of a microenvironment such as stromal cells, vascular cells, immune cells or muscle cells based on three-dimensional (3D) bioprinting, and a method of manufacturing the same. As the stem cell- or tumor cell-based 3D multicellular mimetic tissue structure containing the major factors of a tissue microenvironment, such as stromal cells, vascular cells, immune cells and muscle cells, designed according to the present invention is confirmed to mimic physiological and pathological characteristics of tissue in the body better than conventional organoids, normal and tumor assembloids may be used as a new platform for new drug development and a disease model. More specifically, together with 3D bioprinting technology, it is expected that in vitro bladder tissue and bladder tumor tissue are effectively used as a platform to develop precise and personalized therapeutic options for bladder related diseases including bladder cancer.

A method for growing polarized endometrial cells, said method comprising: (a) disposing endometrial cells on a scaffold, said scaffold comprising a silica-based glass composition, characterized by multi-modal porosity, said scaffold being to define a top side and a bottom side; (b) providing nutrients to said top and bottom sides of said scaffold and an environment to grow polarized endometrial cells on said scaffold.

Disclosed is a method for preparing an implant including a culture of cells on a membrane, the method including steps that consist of: securing the membrane to a mounting; placing the membrane in a recess of a housing providing two spaces having adjusted heights, above and below the membrane; injecting, into the spaces, a liquid capable of transforming into gel at a transport temperature lower than an injection temperature of the liquid; and bringing the housing to the transport temperature, so as to form an implant including the membrane and two layers of gel having adjusted thicknesses, on two opposite faces of the membrane, respectively.

The present invention relates to a medium composition for cell proliferation, skin regeneration, and wrinkle improvement that contains a conditioned medium of pluripotent stem cells (PSCs), neural stem cells (NSCs), and embryonic fibroblasts (FBs) as cells isolated from avian eggs as an active ingredient. Specifically, the conditioned medium of egg cells can fundamentally block contamination due to the use of animal serums, exhibits a proliferation effect of various cells containing human stem cells and skin cells without the possibility of transmission by infectious agents between heterogeneous species due to the use of support cells, and exhibits significant skin regeneration or wrinkle improvement effects, and thus the conditioned medium of egg cells can be usefully used for a medium composition for cell proliferation and a cosmetic composition for skin regeneration or wrinkle improvement.