Among the various aspects of the present disclosure is the provision of a media for cryopreserved cells and methods of making and using same. An aspect of the present disclosure provides for a cell media formulation comprising (e.g., for day 0) one or more components selected from: MCDB 131; Glutamax; P/S; BSA; Glucose; ZnSO4; an enzyme for digesting DNA (e.g., DNASE1); and/or an apoptosis inhibitor (e.g., BI-6C9).

The invention provides tissue culture system for primary cells (e.g. normal mammalian primary epithelial progenitors). This system includes: a) a serum-free, chemically defined cell culture media; and, b) methods for isolation and in vitro long-term propagation of primary cells (e.g. primary epithelial cells). Primary cells so isolated and cultured can be kept undifferentiated and proliferate for many weeks (>15 weeks) or population doubling (>35 PD) without senescence, or any detectable genetic alterations. Upon changing media/culture conditions, these cells can be induced to differentiate. The invention also provides methods to transform normal primary cells so cultured into “cancer stem cells.” The genetically defined cancer stem cell tumor model mimics the behavior of the disease closely, e.g., the cells are invasive, hormone responsive and metastatic when injected into mice. The tumor cells express genes that are specific to cancer stem cells identified in patient samples.

The invention relates to the use of matrix cells for obtaining a micro hair follicle and to the use thereof for evaluating the effect of cosmetic, pharmaceutical or dermatological products and also for the prophylactic or therapeutic treatment of a state of reduced pilosity.

Provided is a preparation method for olfactory progenitor cells. Also provided is an olfactory progenitor cell obtained by the method according to the present invention, wherein the single cell of the olfactory progenitor cell can be serially passaged for more than 11 generations. Compared with the prior art, the preparation method for olfactory progenitor cells of the present invention has excellent effects, by which a large quantity of olfactory progenitor cells can be obtained. Moreover, the method is simple and feasible with low cost and good safety, and has a good application prospect in China and abroad.

An object of the present invention is to provide a method of producing a pluripotent stem cell capable of differentiating into a specific cell. According to the present invention, there is provided a method for producing a pluripotent stem cell capable of differentiating into a specific cell, the method including (i) a step of measuring, in a pluripotent stem cell as a sample, a phenotype associated with induction of epithelial-mesenchymal transition before differentiation induction; and (ii) a step of acquiring a pluripotent stem cell capable of differentiating into a specific cell using the measured phenotype as an indicator. According to the present invention, there are further provided a method of selecting a pluripotent stem cell capable of differentiating into a specific cell; a pluripotent stem cell capable of differentiating into a specific cell; a production method of a differentiated cell; a differentiated cell; and a method for quality evaluation of a pluripotent stem cell.

A monocytes derived signaling cells mixture is prepared by culturing buffy coats in a cell culture medium containing platelet-poor-plasma and collecting the cultured buffy coats and the cultured cell culture medium. The monocytes derived signaling cells mixture contains granulocytes, lymphocytes, fibrocytes and monocytes, in which the high ratio of the monocytes are CD16 positive monocytes. The monocytes derived signaling cells mixture is used in the improvement of liver function index of a subject.

Disclosed is a method for culturing urine-derived kidney stem cells, which belongs to the field of cell biology. The method comprises the following steps: isolating cells from the urine, and then culturing the cells with a culture medium of urine-derived kidney stem cells on feeder cells to obtain the urine-derived kidney stem cells, wherein the feeder cells are fibroblasts, and the culture medium of urine-derived kidney stem cells contains 200-300 mL of DMEM medium, 200-300 mL of F12 medium, 20-70 mL of fetal bovine serum, 0.2-2 mM of L-glutamine, 1-14 ng/mL of insulin, 0.1-1 ng/mL of epidermal growth factor, 5-30 μg/mL of adenine, and 2-20 μg/mL of hydrocortisone. By using the method, kidney stem cells with high proliferation capacity and specificity can be obtained and applied, and thus the regenerative outcome of the kidney tissue after injury can be improved.

Methods for improved handling of isolated canine umbilical cord mesenchymal stromal cells (UC-MSCs), including methods for expansion of canine UC-MSCs, cryopreservation and improved post-thaw viability using adherent plates, as well as standardized methods and kits for characterizing isolated canine UC-MSCs in a cell population. Methods for improved detachment or dissociation of adherent cells and new dissociation reagents comprising nattokinase are also disclosed.

The present invention relates to a method of producing low viscous and highly concentrated biopharmaceutical drug products comprising a biomolecule of interest, the method comprising: (a) a first phase of preparing a drug substance of the biomolecule of interest, said first phase comprising at least one processing step selected from (a1) harvesting, (a2) purification, (a3) re-buffering, and (a4) enrichment, wherein said at least one processing step in this first phase is carried out in the presence of a composition comprising at least three amino acids, wherein the combination of said at least three amino acids provides at least one positively charged functional group, at least one anti-oxidative functional group, at least one osmolytic function, and at least one buffering function, and (b) a second phase of further processing the drug substance prepared in (a) to obtain a low viscous and highly concentrated biopharmaceutical drug product, said second phase comprising at least one processing step selected from (b1) re-buffering, (b2) freezing, (b3) thawing, and (b4) filling; wherein said at least one processing step in this second phase is carried out in the presence of a composition comprising (i) at least three amino acids, wherein the combination of said at least three amino acids provides at least one positively charged functional group, at least one anti-oxidative functional group, at least one osmolytic function, and at least one buffering function; and (ii) one or more sugar(s); in an amino acid:sugar ratio between 10:1 to 1:100 (w/w). The present invention further relates to a low viscous and highly concentrated biopharmaceutical drug product obtained or obtainable by the method of the invention.

The present invention relates to the use of a novel Lactobacillus brevis ProGA28 strain, deposited in the German Collection for Microorganisms and Cell Cultures (DSMZ) under the accession number DSM 33167 on May 28, 2019. The metabolites of Lactobacillus brevis ProGA28 have the ability to improve sleep quality, can effectively reduce the time of rapid eye movement in the sleep phase, can reduce time to fall asleep, can increase total sleep time, and can increase the ratio of low waves during sleep so that sleep disorders and related complications, such as anxiety and immune system diseases, are treated.