A method for culturing placental potential cell is provided, comprising steps of: (1) obtaining placental cells and/or tissue under aseptic condition; (2) inoculating the placental cells and/or the tissue in a culture medium for culturing, adding cell growth regulators to the culture medium, in such a manner that the placental potential cells grows to make the placental cells and/or the tissue into a proliferative state; (3) culturing the placental potential cells to make the placental potential cells proliferate continuously into cells with characteristics of stem cells. The present invention not only finds the source of human tissues, organs and the continuation of their function, i.e., regenerative potential cells; but also finds a medical and health longevity method, but also finds out the life materials to maintain and support the potential cells, so as to replace drugs with the living material.

The present disclosure provides highly efficient, non-invasive, and reversible methods for selectively enriching pluripotent cells (e.g., human pluripotent cells and mouse pluripotent cells) in a cell population using a glutamine-deficient medium. The presently disclosed methods have the advantageous of efficiently enriching pluripotent cells in a heterogenous cell population without altering the biological properties of any individual cells.

Cell populations, compositions, and methods are provided relating to target priming of macrophage cells. The macrophages, once primed or activated with a microorganism, can be used to prevent or treat infection by the microorganism. Likewise, once primed or activated by a tumor cell or tumor antigen, the macrophage cell can be used to prevent or treat tumor of the same kind. The priming can be carried out in vitro or ex vivo. The macrophages can be isolated from the subject of disease prevention or treatment.

An object is to prepare an intestinal organoid having a characteristic close to the small intestine of a living body, from a pluripotent stem cell. An intestinal organoid is prepared from a pluripotent stem cell, by the following steps of: (1) differentiating the pluripotent stem cell into an endoderm-like cell; (2) differentiating the endoderm-like cell obtained in step (1) into an intestinal stem cell-like cell; (3) culturing the intestinal stem cell-like cell obtained in step (2) in the presence of an epidermal growth factor, a fibroblast growth factor, a TGF β receptor inhibitor, a GSK-3 β inhibitor, and a ROCK inhibitor; (4) culturing the cell obtained in step (3) to form a spheroid; and (5) differentiating the spheroid formed in step (4) to form an intestinal organoid, wherein the differentiation includes culturing in the presence of an epidermal growth factor, a BMP inhibitor, and a Wnt signal activator. Also, a plane culture system is prepared by subjecting the cells constituting the intestinal organoid formed in step (5) to plane culture in the presence of an epidermal growth factor and a TGF β receptor inhibitor. A highly functional evaluation system having the villi structure is constructed by using air-liquid interface culture in the plane culture.

There is provided a method for easily determining an undifferentiated state of pluripotent stem cells without relying on the judgment of a skilled technician. The method includes: a step of evaluating an undifferentiated state of pluripotent stem cells based on a time-dependent change in a variation value of an extracellular metabolite contained in a culture medium in which the pluripotent stem cells are cultured, wherein the extracellular metabolite is at least one selected from a group consisting of L-glutamic acid, L-alanine and ammonia.

The invention provides a method of producing a synthetic retina, comprising: i) providing a three dimensional stem cell culture throughout the differentiation time course, ii) differentiating the three dimensional stem cell culture for a first time period in a first neural cell culture medium comprising: a) L-glutamine; b) B27 supplement; and c) an IGF-1 receptor agonist, iii) subsequently differentiating the three dimensional stem cell culture for a second time period in a second neural cell culture medium comprising: a) L-glutamine; b) B27 supplement; c) N2 supplement; and d) an IGF-1 receptor agonist, wherein said synthetic retina contains laminated retinal tissue comprising.

In some aspects, described herein are cell culture media that are useful for in vitro culture of mammalian cells. The culture media contain a variety of small organic compounds that are found in normal adult human blood. Also described are methods of using the culture media for a variety of purposes. Also described are methods of treating cancer.

A method for culturing primary cells from solid tumor tissues of lung cancer and primary tumor cells from pleural effusion of lung cancer, and the auxiliary reagents. A method for culturing primary cells from solid tumor tissues of lung cancer and primary tumor cells from pleural effusion of lung cancer and the auxiliary reagents. The core of the technology is as follows: (1) solid tumor of lung cancer are treated by using a mild cell dissociating reagent, and lung cancer cells in pleural effusion are dissociated by a mild method, ensuring the vitality of cancer cells to the greatest extent; (2) a special serum-free medium is prepared, and tumor cells derived from solid tumor tissues of lung cancer are cultured in vitro by using a suspension culture system, ensuring the normal amplification of the cancer cells while eliminating the interference of normal cells to the greatest extent.

In one embodiment, the present application discloses a cell culture medium for culturing cell lines suitable for producing a therapeutic protein, comprising an amino acid selected from a group consisting of L-arginine, L-asparagine, L-proline, L leucine and L hydroxyproline and a mixture thereof; a vitamin selected from a group consisting of ascorbic acid Mg.sup.2+ salt, biotin, pyridoxine HCL, folic acid, riboflavin and D-calcium pantothenate, and a mixture thereof; an element selected from a group consisting of ammonium meta vanadate, sodium meta vanadate, germanium dioxide, barium acetate, aluminum chloride, rubidium chloride, cadmium chloride, ammonium molybedate, stannous chloride, cobalt chloride, chromium sulfate, silver nitrate, sodium metasilicate, zinc sulfate, manganese sulfate H.sub.2O, manganous chloride, ferric nitrate 9H.sub.2O, ferrous sulfate 7H.sub.2O, ferric ammonium citrate, magnesium chloride anhydrous, and magnesium sulfate anhydrous, and a mixture thereof; a nucleoside selected from a group consisting of uridine and cystidine; a sugar selected from a group consisting of galactose, mannose and N-Acetyl-D-Mannosamine; and a triple buffering system comprising sodium carbonate, sodium bicarbonate and HEPES; wherein the cell culture medium is animal component-free, plant component-free, serum-free, growth factors-free, recombinant protein-free, lipid-free, steroid-free, and free of plant or animal hydrolysates and/or extracts.

Provided herein are methods for transducing a plurality of cells in a composition of cells, such as a population of lymphocytes, containing viral particles. In some aspects, provided methods and reagents for the transduction of cell populations involve binding of agents to a molecule on the surface of the cells. In some cases, the reagents are multimerization reagents and the one or more agents are multimerized by reversibly binding to the reagent. In some aspects, the multimerized agent can provide for transduction and/or expansion or proliferation or other stimulation of a population of cells, and then such agents can be removed by disruption of the reversible bond. Also provided are compositions, apparatus and methods of use thereof.