The present disclosure discloses a preparation method and a recovery method of pariduval mesenchymal stem cells (PMSCs). In the preparation method, a high-glucose Dulbecco's Modified Eagle Medium (DMEM) that includes a Tryple-ethylenediaminetetraacetic acid (EDTA) enzyme of 40% to 60% in volume concentration and collagenase type II of 8 mg/ml to 12 mg/ml is used as a tissue digestion solution to digest tissue blocks, which facilitates PMSCs to climb out of the tissue blocks and grow adherently; and a serum-free DMEM is adopted as a selective medium to terminate the digestion and resuspend PMSCs, which helps to improve a purity of PMSCs, accelerate the growth of PMSCs, and achieve the rapid expansion of PMSCs in vitro.

A method of direct transdifferentiation of somatic cells into other somatic cells may be convenient and still have good reproducibility, excellent production efficiency, and short performed time. Methods for direct transdifferentiation of somatic cells into other somatic cells may include: (a) introducing a GLIS family gene, a mutated GLIS family gene or a gene product thereof into somatic cells; and (b) culturing the gene-introduced somatic cells in a culture medium containing a component that induces differentiation of the somatic cells or precursor cells of the somatic cells into other somatic cells.

Methods for generating in culture of cells resembling mammalian trophectoderm-lineage cells from mammalian pluripotent stem cells are provided, along with the related compositions.

The present disclosure relates to improved methods serum free stem cell culture, particularly 3D culture in bioreactors as well as cell culture medium and compositions for use in the same. Such methods may be particularly suitable for large scale cell manufacture.

The present disclosure concerns a cell or tissue culture system comprising a solid support for the culture of adherent cells or adherent tissues and a plurality of cationic dendrimers associated to the surface of the solid support. Each cationic dendrimer includes one or more functional amine group. The cationic dendrimer is protonated at physiological pH. The cell or tissue culture system can be used for the culture of adherent cells or tissues and be used for the differentiation of stem cells.

A method for the mass proliferation of urine-derived multipotent cells and a medium composition for the mass proliferation of urine-derived multipotent cells according to the present invention can be used to massively proliferate urine cells by efficiently isolating the same even from urine that has been left alone for a long period of time, and can be used to produce multipotent cells having characteristics of epithelial cells, mesenchymal cells, and stem cells.

Disclosures herein are directed to chemically defined animal-derived component free supplements designed for individual cell types that supports the ex vivo growth of cells as well or better than serum, in chemically defined conditions.

The present invention relates generally to a three-dimensional cell and tissue culture system for the female reproductive tract. In particular provided herein the system includes individual female reproductive cultures in a dynamic microfluidic setting or integrated using a microfluidic microphysiologic system. In some embodiments, the present invention provides ex-vivo female reproductive tract integration in a three dimensional (3D) microphysiologic system.

Provided herein are methods and compositions for a suicide gene approach comprising an expression vector comprising a cell cycle-dependent promoter driving the expression of a suicide gene. Also provided herein are methods to render proliferative cells sensitive to a prodrug after transplantation but avoids expression of the suicide gene in post-mitotic cells, such as neurons.

There is described herein a cell culture medium comprising: a basal medium; an antibiotic; B27; Noggin; Y-27632; Human FGF10 or FGF7; preferably wherein there is an absence of a Wnt agonist. Methods and uses of the medium is also described.