Disclosed is a spheroid liver organoid comprising hepatic lineage cells such as human hepatocytes, hepatic stellate cells, and liver sinusoidal endothelial cells. Also provided are methods of using spheroid liver organoids for applications related to drug screening and toxicity screening. In particular, spheroid liver organoids are useful for high-throughput screens to identify compounds having efficacy for treating liver disease.

The present disclosure relates generally to culture media formulations and culture methods. More particularly, the present disclosure provides defined serum-free culture media, kits and methods for generating progenitor T cells and derivatives thereof, including mature T cells. The present disclosure further provides the cells generated using the media, kits and methods, as well as methods of treatment using the generated cells.

Embodiments disclosed here are production methods and compositions of engineered immune cells, such as B or T lymphocytes, from limited lineage myeloid progenitor cells, or from pluripotent stem cells, or from multilineage hematopoietic progenitor cells comprising the addition of various cell differentiation transcription factors and inhibiting epigenetic histone methylations in said cells.

There is provided a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells by introduction of a Notch gene. Specifically, the invention provides a method of inducing differentiation of bone marrow stromal cells to neural cells or skeletal muscle cells in vitro, which method comprises introducing a Notch gene and/or a Notch signaling related gene into the cells, wherein the finally obtained differentiated cells are the result of cell division of the bone marrow stromal cells into which the Notch gene and/or Notch signaling related gene have been introduced. The invention also provides a method of inducing further differentiation of the differentiation-induced neural cells to dopaminergic neurons or acetylcholinergic neurons. The invention yet further provides a treatment method for neurodegenerative and skeletal muscle degenerative diseases which employs neural precursor cells, neural cells or skeletal muscle cells produced by the method of the invention.

The present invention aims to solve a problem in T-cell transfer therapy and the like, which is T-cell exhaustion, and to provide a technique to enhance T cell activity. T cells having cell surface markers of CD45RA.sup.+ and CCR7.sup.+ can be produced by culturing activated T cells in the presence of (a) a conditioned medium derived from stromal cells or (b) CXCL12.

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.

The present invention provides methods to promote the differentiation of pluripotent stem cells and the products related to or resulting from such methods. In particular, the present invention provides an improved method for the formation of pancreatic hormone expressing cells and pancreatic hormone secreting cells. In addition, the present invention also provides methods to promote the differentiation of pluripotent stem cells without the use of a feeder cell layer and the products related to or resulting from such methods. The present invention also provides methods to promote glucose-stimulated insulin secretion in insulin-producing cells derived from pluripotent stem cells.

Methods for generating multipotent radial glia-like cells and astrocyte-like cells from human pluripotent stem cells are provided along with the related compositions.

Provided are methods for expanding stem cells and/or lineage committed progenitor cells, such as hematopoietic stems cells and/or lineage committed progenitor cells, at least in part, by using compounds that antagonize AhR. The compounds are represented by formulae:

##STR00001## wherein the letters and symbols a, b, c, d, e, f, g, Z, R.sup.1b, R.sup.2a and R.sup.2b have the meanings provided in the specification. Also provided are compositions comprising stem cells and/or lineage committed progenitor cells expanded by methods disclosed herein and methods for the treatment of diseases treatable by same.

The present invention provides in vitro methods of differentiating brain mural cells and methods of use, including use in blood brain barrier models. Suitable in vitro derived cell populations of brain mural cells are also provided.