The present invention discloses an in-vitro culture, induction, activation and cryopreservation method and cell bank establishment for immune cells. The method includes the follows: using a dedicated amplification medium of immune cells to perform first-stage amplification culture on mononuclear cells to obtain preliminarily amplified immune cells; using a dedicated induction medium of immune cells to perform second-stage induction and amplification culture on the preliminarily amplified immune cells to obtain induced immune cells; using a dedicated activation medium of immune cells to perform third-stage activation and amplification culture on the induced immune cells to obtain a large number of immune cells with activation functions; using a dedicated cryopreserving fluid of immune cells to cryopreserve the immune cells to obtain cryopreserved immune cells; and performing preservation according to ABO/RH typing and HLA typing; and establishing an information file of immune cells for retrieval to construct an immune cell bank.

The technology relates in part to methods and compositions for ex vivo proliferation and expansion of epithelial cells.

The present invention relates to a method for inducing the differentiation of corneal epithelial cells from pluripotent stem cells. More specifically, the present invention relates to a method for autonomously differentiating pluripotent stem cells, such as human iPS cells, into ectodermal cell lineage in a serum-free medium without using feeder cells and inducing the differentiation of the resultant ocular surface ectodermal lineage cells into corneal epithelial cells.

Disclosed herein are compositions and methods related to differentiation of stem cells into pancreatic islet cells. In some aspects, the methods provided herein relate to generation of pancreatic β cell, α cell, δ cells, and EC cells in vitro. In some aspects, the disclosure provides pharmaceutical compositions including the cells generated according to the methods disclosed herein, as well as methods of treatment making use thereof.

A mesenchymal stem cell culture product and a method for preparing the same are provided. The method for preparing the mesenchymal stem cell culture product includes the following steps. A predetermined quantity of mesenchymal stem cells is seeded in a flat culture device containing a first cell culture medium. When the mesenchymal stem cells proliferate to a target quantity, the first cell culture medium is replaced with a second cell culture medium, and the second cell culture medium is removed after incubation for 18 to 30 hours. A target cell culture medium is added and incubated for 48 to 72 hours. The target cell culture medium is collected repeatedly. The collected target cell culture medium is filtered and concentrated to obtain the mesenchymal stem cell culture product.

Disclosed herein are methods for directing a differentiation protocol to produce cells of a desired cell fate, such as SC-β and/or SC-α cells.

There is described herein a cell culture medium comprising: a basal medium; an antibiotic; B27; Noggin; Y-27632; Human FGF10 or FGF7; preferably wherein there is an absence of a Wnt agonist. Methods and uses of the medium is also described.

Compositions and methods for generating insulin-producing beta cells from pluripotent stem cells are provided. The compositions and methods of the present invention involve stepwise differentiation while the differentiating cells are cultured on a lung tissue-derived acellular scaffold.

Provided herein are floating hydrogel droplet culture methods that enable scaling of stem cell derived alveolar epithelial cell (AEC) expansion to numbers compatible with large animal or human whole lung engineering, as well as molds for generating the droplets and methods of use thereof.

Disclosed herein is a method for cultivating primary human pulmonary alveolar epithelial cells (HPAEpiC), which includes cultivating the primary HPAEpiC in a first medium containing a basal medium, a culture supplement, and a Rho kinase inhibitor, and a second medium containing the basal medium and the culture supplement in sequence. The culture supplement includes Jagged-1 (JAG-1) peptide, human Noggin protein, transforming growth factor-β (TGF-β) type I receptor inhibitor SB431542, human fibroblast growth factor 7 (hFGF-7), hFGF-10, and glycogen synthase kinase 3 (GSK-3) inhibitor CHIR99021. Also disclosed is a method for preparing a three-dimensional cell culture of alveolar epithelium using the first medium and the second medium.