It is a subject to provide a means of preparing highly pure vascular endothelial progenitor cells in a simple and low-cost manner. It is also a subject to provide a method for efficiently proliferating vascular endothelial progenitor cells. High-purity vascular endothelial progenitor cells are prepared by the process of differentiating pluripotent stem cells into vascular endothelial progenitor cells and purifying the vascular endothelial progenitor cells using a difference in adhesion ability between the vascular endothelial progenitor cells constituting the cell population obtained in the process and other cells. On the other hand, vascular endothelial progenitor cells are cultured and expanded in the presence of a ROCK inhibitor, a GSK-3β inhibitor, and a TGF-β receptor inhibitor in addition to basic fibroblast growth factor and epidermal growth factor.

An aqueous cell culture medium composition includes an aqueous cell culture solution configured to support the culture of mammalian cells. The composition further includes a synthetic polymer conjugated to a polypeptide dissolved in the aqueous cell culture solution. The synthetic polymer conjugated to a polypeptide is configured to attach to the surface of a cell culture article under cell culture conditions. Incubation of the aqueous cell culture medium composition on a cell culture surface under cell culture conditions results is attachment to the surface of the synthetic polymer conjugated to the polypeptide.

The present disclosure relates to the use of laminin-521 in obtaining retinal pigment epithelium (RPE) cells. Pluripotent human embryonic stem cells are cultured on plates coated with recombinant laminin-521 (laminin-11), in totally defined and xeno-free conditions. A first cell culture medium contains a growth factor, and a second cell culture medium does not contain growth factor. The stem cells are first exposed to the first cell culture medium, then exposed to the second cell culture medium for a longer time period. After a number of weeks, clinical grade RPE cells are obtained from the stem cells.

The present invention provides NRP1 as a cell surface marker for isolating human cardiomyogenic ventricular progenitor cells (HVPs), in particular progenitor cells that preferentially differentiate into cardiac ventricular muscle cells. Additional HVP cell surface markers identified by single cell sequencing are also provided. The invention provides in vitro methods of the separation of NRP1+ ventricular progenitor cells, and the large scale expansion and propagation thereof. Large clonal populations of isolated NRP1+ ventricular progenitor cells are also provided. Methods of in vivo use of NRP1+ ventricular progenitor cells for cardiac repair or to improve cardiac function are also provided. Methods of using the NRP1+ ventricular progenitor cells for cardiac toxicity screening of test compounds are also provided.

The present invention relates to production of therapeutic potential WJ-MSCs for clinical purposes. The WJ-MSCs cultured in optimal culture conditions for production of clinical grade WJ-MSCs wherein 4 different culture media which are Media A, Media B, Media C and Media D used to produce 4 types of WJ-MSCs with different therapeutic potential. The WJ-MSCs harvested from Media A has therapeutic potential related to immune, wound healing and cell migration and the WJ-MSCs harvested from Media B has therapeutic potential related to localization, cell proliferation and cell migration. Meanwhile, the WJ-MSCs harvested from Media C has therapeutic potential related to organ development and osteogenesis and the WJ-MSCs harvested from Media D has therapeutic potential related to tissue development, cell signaling and localization.

Provided are methods of generating a metabolically mature human cell selected from the group consisting of a cardiomyocyte, a pancreatic beta cell, and a neuronal cell, using an effective concentration of a conjugated fatty acid and optionally a nonconjugated fatty acid selected from the group consisting of: a monounsaturated omega-9 fatty acid, palmitic acid, linoleic acid (LA) and a short chain fatty acid. Also provided are isolated populations of metabolically mature human cells, and methods and kits using same for selecting a compound for toxicity to the cells.

The present disclosure relates to methods for culturing human epidermal keratinocytes. When keratinocytes are cultured on plates coated with a laminin containing an alpha-4 chain or an alpha-5 chain, in a xeno-free, chemically defined cell culture medium, they expand efficiently in vitro. Useful cell culture kits for culturing keratinocytes are also described herein, as are methods of using such cells for treatment of burns or chronic wounds.

The present disclosure discloses methods for culturing stem cells in three-dimensional methods. Said method is either a spheroid-based method or a microcarrier-based method. The process as described herein leads to the expansion of the stem cells to obtain an expanded population of the stem cells, and a stem cell derived-conditioned medium. The present disclosure also discloses an expanded population of the stem cells, and a stem cell derived-conditioned medium obtained from the process as described herein. Further, an exosome preparation obtained from the stem cell derived-conditioned medium is also disclosed herein. The present disclosure also discloses a composition comprising an expanded population of the stem cells, or a stem cell derived-conditioned medium, or an exosome preparation, or combinations thereof. Methods of treatment using the composition as described herein is also disclosed in the present disclosure.

The disclosure provides a human umbilical cord mesenchymal stem cell sheet comprising one or more layers of confluent human umbilical cord mesenchymal stem cells (hUC-MSCs). The disclosure also provides method for producing hUC-MSC sheets comprising culturing hUC-MSCs in culture solution on a temperature-responsive polymer which has been coated onto a substrate surface of a cell culture support, wherein the temperature-responsive polymer has a lower critical solution temperature in water of 0-80° C.; adjusting the temperature of the culture solution to below the lower critical solution temperature, whereby the substrate surface is made hydrophilic and adhesion of the cell sheet to the surface is weakened; and detaching the cell sheet from the culture support.

The present disclosure relates to methods for expanding populations of hematopoietic stem cells (HSCs) using a genetically engineered human fetal liver niche and compositions of purified ex vivo expanded HSCs. Also provided herein are methods of using such expanded HSC cell populations for clinical applications including allogeneic hematopoietic stem cell transplantation and for drug discovery and modeling human liver development.