Disclosed are compositions, in particular, organoid compositions, derived from more than one donor cell. Further disclosed are methods of making compositions, for example, organoid compositions, that comprise a differentiated cell population derived from more than one donor cell. Donor cells may include, for example, a precursor cell such as an embryonic stem cell or other precursor cell. The disclosed methods use synchronization conditions to produce a synchronized pooled-precursor cell population, which may then be differentiated into an organoid composition. Methods of using the compositions are also disclosed.

The invention provides a method for constructing a hepatic progenitor cell-like cell bank, including successively performing following processes to human primary hepatocyte cultures from different donor sources: transformation-culture, cryopreservation treatment, proliferation-culture, a first subculture treatment, virus infection, a second subculture treatment, continuous selection-culture and continuous subculture. In the method for constructing a heterogenous immortal hepatic progenitor cell-like cell bank of the present invention, the human primary hepatocyte culture of each of the donor sources is transformation-cultured before the proliferation-culture, which is beneficial in endowing the human primary hepatocyte cultures with good proliferation performance. Once combined with subsequent controlling of culture parameter, the immortal hepatic progenitor cell-like cell lines obtained from different donor sources may have good in vitro proliferation ability. The invention also provides an application of the hepatic progenitor cell-like cell bank and cell lines obtained by the construction method.

The present invention relates to a cell structure including cells containing at least hepatocytes and vascular endothelial cells, and extracellular matrix component, wherein the extracellular matrix components are disposed between the cells, and a liver sinusoidal network is provided between the cells.

The present invention provides a product comprising plated human hepatocytes on a surface and at least some of the plated hepatocytes are in one or more hepatocyte clusters on feeder cells, which are attached to the surface. A method of preparing plated human hepatocytes is also provided. The preparation method comprises applying human hepatocytes to a surface in the presence of feeder cells, co-culturing the applied hepatocytes with the feeder cells, and forming one or more hepatocyte clusters by the co-cultured hepatocytes on the feeder cells, which are attached to the surface. The plated hepatocytes may be used for various purposes, including the preparation of a hepatitis B virus (HBV) infected hepatocyte culture model and drug testing.

The present invention pertains to a method for creating reprogramed cells from somatic cells without gene introduction. The method includes a step (a) for culturing somatic cells in a medium containing a histone deacetylase inhibitor, and a step (b) for culturing the cells cultured in step (a) in a medium containing an OCT3/4 transcription stimulating factor to create reprogrammed cells.

Methods are disclosed herein for producing human hepatocytes from human induced pluripotent stem cells. Also provided are transgenic rats for the expansion of human hepatocytes, such as those produced using the methods disclosed herein.

The disclosure relates to double-stranded ribonucleic acid (dsRNA) compositions targeting the UGT1a1 gene, and methods of using such dsRNA compositions to alter (e.g., inhibit) expression of UGT1a1.

The present invention provides: an assay method that uses a compound represented by formula (I) as a fluorescent probe molecule and that is for detecting the lipid peroxidation suppression activity of a test compound; an assay kit that uses the assay method; a screening method that uses the assay method; and a pharmaceutical composition that is for the treatment, etc. of diseases (such as age-related macular degeneration) that are induced by lipid peroxidation reactions. ##STR00001##

The disclosure relates to double stranded ribonucleic acid (dsRNAi) agents and compositions targeting a Huntingtin (HTT) gene, e.g., exon 1 of an HTT gene, as well as methods of inhibiting expression of an HTT gene and methods of treating subjects having an HTT-associated disease or disorder, e.g., Huntington's disease, using such dsRNAi agents and compositions.

Compositions, devices and methods are described for improving adhesion, attachment, and/or differentiation of cells in a microfluidic device or chip. In one embodiment, one or more ECM proteins are covalently coupled to the surface of a microchannel of a microfluidic device. The microfluidic devices can be stored or used immediately for culture and/or support of living cells such as mammalian cells, and/or for simulating a function of a tissue, e.g., a liver tissue, muscle tissue, etc. Extended adhesion and viability with sustained function over time is observed.