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.

The present invention relates generally to the field of cell biology of stem cells, more specifically the directed differentiation of pluripotent or multipotent stem cells, including human embryonic stem cells (hESC), somatic stem cells, and induced human pluripotent stem cells (hiPSC) using novel culture conditions. Specifically, methods are provided for obtaining neural tissue, floor plate cells, and placode including induction of neural plate development in hESCs for obtaining midbrain dopamine (DA) neurons, motor neurons, and sensory neurons. Further, neural plate tissue obtained using methods of the present inventions are contemplated for use in co-cultures with other tissues as inducers for shifting differentiation pathways, i.e. patterning.

A therapeutic molecule (single chain-based antibody or ligand-based) optimized for expression and secretion from engineered T cells, which may be gamma delta (gd) T cells. When expressed from engineered gdT cells, the STAR will be secreted and mediate engagement between gdT cells and antigen/receptor on target cells. Binding mediates the formation of a cytolytic synapse between the gdT cell and the target cell leading to activation the gdT cells to release proteolytic enzymes that kill target cells.

Among the various aspects of the present disclosure is the provision of methods and compositions for the generation of functionally mature beta cells having enhanced SIX2+ activity and therapeutic benefit and uses thereof. An aspect of the present disclosure provides for a method of generating SIX2-enhanced SC-β cells. In some embodiments, the method comprises providing a population of SC-β cells (or EP cells); providing a SIX2 positive regulator; and/or incubating the population of SC-β cells and the SIX2 positive regulator.

The present invention relates to a method for preparation of mesenchymal stem cells from human pluripotent stem cells and, more particularly, to a method for preparation of mesenchymal stem cells, wherein mesenchymal stem cells differentiated from embryoid bodies of a certain size in a xeno-free and serum-free environment are prepared, whereby the mesenchymal stem cells exhibit increased safety and maintain their own characteristics for a long period of time. A method for preparation of mesenchymal stem cells from human pluripotent stem cells according to the present invention employs a feeder cell-free, xeno-free, and serum-free culture environment to solve the problem of contamination with a foreign animal-derived material and allow the preparation of highly safe mesenchymal stem cells. In addition, the method utilizes spheroidal embryoid bodies to form mature embryoid bodies uniform in shape and size, thereby improving the differentiation efficiency to mesenchymal stem cells and exhibiting an exceptional effect of stably maintaining mesenchymal stem cell characteristics even after a long-term subculture, such as 20 or more passages, through which human pluripotent stem cell-derived mesenchymal stem cells can be prepared in a large amount. Therefore, the invention is advantageous for commercializing cell therapeutic agents superb in safety and efficiency.

Anti-aging cosmetic compositions prepared from conditioned medium of adipose-derived stem cells are provided. The cosmetic compositions are preferably ready-to-mix compositions, comprising two separate components: a protein component in a dried form that serves as the cosmetically active ingredient of the product, comprising a protein fraction purified from an adipose-derived stem cell conditioned medium; and a reconstitution component, for reconstituting the lyophilized protein component just before application to the skin.

The present invention relates generally to the field of cell biology of stem cells, more specifically the directed differentiation of pluripotent or multipotent stem cells, including human embryonic stem cells (hESC), somatic stem cells, and induced human pluripotent stem cells (hiPSC) using novel culture conditions. Specifically, methods are provided for obtaining neural tissue, floor plate cells, and placode including induction of neural plate development in hESCs for obtaining midbrain dopamine (DA) neurons, motor neurons, and sensory neurons. Further, neural plate tissue obtained using methods of the present inventions are contemplated for use in co-cultures with other tissues as inducers for shifting differentiation pathways, i.e. patterning.

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 invention provides a method for producing a cell aggregate containing a ciliary marginal zone-like structure by culturing a cell aggregate containing a retinal tissue in which Chx10 positive cells are present in a proportion of 20% or more of the tissue in a serum-free medium or serum-containing medium, each containing a substance acting on the Wnt signal pathway for only a period before the appearance of a RPE65 gene expressing cell, followed by culturing the “cell aggregate in which a RPE65 gene expressing cell does not appear” thus obtained in a serum-free medium or serum-containing medium, each not containing a substance acting on the Wnt signal pathway and so on.

Provided is an excellent method for producing an IL-4 non-secreting and IFN-γ secreting (Th1-type) or IFN-γ non-secreting and IL-4 secreting (Th2-type) CD4 single-positive T cell (CD4SP T cell). The method for producing the Th1-type or Th2-type CD4SP T cell of the present invention comprises a step of inducing a CD4 single-positive T cell from a hematopoietic stem cell (HSC) and/or a hematopoietic progenitor cell (HPC) substantially defective in a factor involved in IL-4 secretion or a factor involved in IFN-γ secretion.