Disclosed are means, compositions of matter and protocols useful for treatment of neurological dysfunctions through stimulation of adult neurogenesis using administration of umbilical cord derived mesenchymal stem cells such as JadiCells. In one embodiment viral induced neuropathy is reduced by administration of JadiCells to stimulate neurogenesis. In another embodiment the neurogenic activity of selective serotonin reuptake inhibitors is enhanced by administration of JadiCells. In some embodiments administration of JadiCell exosomes, conditioned media, microvesicles and/or apoptotic bodies is utilized to stimulate neurogenesis.

The present invention provides a method of treating a disorder using a fibromodulin (FMOD) reprogrammed (FReP) cell. The method comprises administering locally to a human being the FReP cell to a site in need thereof of the human being.

A method for preparing a stromal vascular fraction from an adipose tissue, including a step of treating an adipose tissue with an enzyme solution containing a collagenase and a neutral protease, preferably an enzyme solution free of clostripain and thermolysin, and showing not less than 1 U neutral protease activity with respect to 10,000 U collagenase activity, and recovering cells is provided by the present invention.

Applications of butylidenephthalide (BP), comprising the use of BP in providing a kit for promoting differentiation of stem cells into brown adipose cells, and the use of BP in preparing a medicament, wherein the medicament is used for inhibiting the accumulation of white adipose cells, promoting the conversion of white adipose cells into brown adipose cells, inhibiting weight gain and/or reducing the content of triglycerides, glucose, and total cholesterol in blood.

Use of glycerol in preparing an adipose tissue cryopreservation protective agent and the adipose tissue cryopreservation protective agent. Based on the total volume of the adipose tissue cryopreservation protective agent, the adipose tissue cryopreservation protective agent includes: glycerol with a volume fraction of 60-80%; 0.090-0.200 g/ml trehalose; and a PBS buffer serving as the solvent. The adipose tissue cryopreservation protective agent is free of DMSO and other protective agents having biological toxicity, poses no toxicity to cells and tissues, and causes no safety problem during clinical use even in a case of incomplete elution. The adipose tissue cryopreservation protective agent is free of xenoantigen and has low cost. With glycerol and trehalose being clinically approved medicinal ingredients and inexpensive products, the agent of the present disclosure contains no costly products such as human albumin, thus providing increased possibility for clinical use and promotion.

A method of producing a 3D tissue composite, comprising: a preparation step in which a multiple number of sheet-shaped first structures containing first cells are prepared, wherein at least one of the multiple number of first structures holds a second structure containing second cells; a stacking step in which the multiple number of first structures are stacked to form a 3D composite; and a culturing step in which the 3D composite is cultured to form a 3D tissue composite containing first tissues formed from the first cells and second tissues formed from the second cells.

A method is provided which noninvasively monitors cells and which can accurately determine the progression of differentiation of the cells. This method, for evaluating the differentiation state of cells during culturing for inducing undifferentiated pluripotent stem cells to differentiate into desired cells, determines the progression of induced differentiation using any of the metabolites of glycolysis or any of the metabolites of the tricarboxylic acid cycle (TCA cycle), the metabolites being selected from among two or more types of amino acids contained in the culture solution or components in the culture solution derived from metabolism of the cells.

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.

Provided are methods of deriving a mammalian livestock pluripotent stem cells line, by (a) ex-vivo culturing a mammalian livestock embryo of at least 7 days post-fertilization for a culturing period of at least 4 days and no more than until 21 days post-fertilization so at to obtain an embryo comprising epiblast cell and/or late stage pluripotent stem cell; (b) isolating from the embryo the epiblast cell and/or the late stage pluripotent stem cell, and (c) culturing the epiblast cell and/or the late-stage pluripotent stem cell under conditions suitable for expansion of undifferentiated mammalian livestock pluripotent stem cells to thereby obtain a population of mammalian livestock pluripotent stem cells. Also provided are isolated mammalian livestock pluripotent stem cells, and cells differentiated therefrom.

Non-enzymatic method and milling device for preparing therapeutic cells from adipose tissue including continuously feeding the adipose tissue to the milling device; mechanically separating the cells or cell aggregates from adipose tissue moving through the milling device by means of a multiplicity of blades of a rotor, wherein the blades are arranged in a spaced arrangement with respect to the overall direction of flow and the blades are moving about an axis of rotation, wherein the axis of rotation is provided essentially parallel to the overall direction of flow, continuously withdrawing the processed tissue comprising the separated cells from the milling device.