The present invention provides a culture method of cells and/or tissues including culturing cells and/or tissues in a suspended state by using a medium composition wherein indeterminate structures are formed in a liquid medium, the structures are uniformly dispersed in the solution and substantially retain the cells and/or tissues without substantially increasing the viscosity of the solution, thus affording an effect of preventing sedimentation thereof, and the like.

The present invention is drawn to the generation of micropatterns of biomolecules and cells on standard laboratory materials through selective ablation of a physisorbed biomolecule with oxygen plasma. In certain embodiments, oxygen plasma is able to ablate selectively physisorbed layers of biomolecules (e.g., type-I collagen, fibronectin, laminin, and Matrigel) along complex non-linear paths which are difficult or impossible to pattern using alternative methods. In addition, certain embodiments of the present invention relate to the micropatterning of multiple cell types on curved surfaces, multiwell plates, and flat bottom flasks. The invention also features kits for use with the subject methods.

Provided are a culture medium for expanding and cultivating human liver progenitor cells and an application thereof. The chemical components of the formula of the described culture medium are clear, no serum is present, and various components thereof cooperate with each other to synergize. The culture medium is used for the long-term expansion and cultivation of liver progenitor cells in vitro and is used for maintaining the dryness thereof, is beneficial in quickly and efficiently obtaining a large number of functional liver cells, and is suitable for clinical hepatocyte transplantation application as well as for the use of hepatocyte reactors in bioartificial livers.

An object of the present invention is to provide human fatty-liver model cells showing symptoms of the hepatic tissue of fatty liver. The present invention relates to human fatty-liver model cells, which are produced by culturing human hepatocytes derived from fatty liver in a medium containing dimethyl sulfoxide.

The present invention relates to a composition for inducing direct conversion from a somatic cell into one or more kinds selected from the group consisting of an induced Hepatic stem cell (iHSC), a hepatocyte, and a cholangiocyte, and a method of direct conversion of a somatic cell into one or more kinds selected from the group consisting of an induced Hepatic stem cell, a hepatocyte, and a cholangiocyte.

There is provided a novel method for culturing a hepatic epithelioid tissue. The method uses a method for forming a hepatic epithelioid tissue having a structure of connections between hepatocytes and bile duct epithelial cells, comprising a step of culturing bile duct epithelial cells on a collagen gel, and a step of inoculating and culturing hepatocytes on the cultured bile duct epithelial cells.

Provided are compositions for long-term maintenance of functional hepatocytes in culture, a method for improved maintenance of functional hepatocytes in vitro, and functional hepatocytes cultures according to the methods. The culture compositions include at least: one activator of adenylate cyclase, one TGFβ inhibitor, one Notch inhibitor, one Wnt inhibitor, and/or one BMP inhibitor. The combinations of compounds are added to any hepatocyte cell culture medium in an effective amount to maintain functional hepatocyte function in vitro, long term. The hepatocytes can be used for in vitro drug research and to model liver disease.

The present invention relates to novel therapeutic agents against hepatitis B virus (HBV) infection, particularly inhibitors of viral covalently closed circular DNA (cccDNA) which is the key barrier for HBV cure. Accordingly, the invention provides the pyrrolo[2,3-b]pyrazine compounds of formula (I), as described and defined herein, for use in the treatment of HBV infection. The compounds provided herein are highly potent against HBV infection and enable an improved therapy, particularly of chronic HBV infection and HBV rebound. The present invention further relates to a novel screening assay for the identification of therapeutic agents against HBV infection, particularly cccDNA inhibitors, which is performed in hepatocyte-like cells that recapitulate the complete HBV life cycle following infection with patient-derived HBV.

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Disclosed herein are methods of producing a population of venous angioblast cells from stem cells using a venous angioblast inducing media and optionally isolating a CD34+ population from the cell population comprising the venous angioblast cells, for example using a CD34 affinity reagent, CD31 affinity reagent and/or CD144 affinity reagent, optionally with or without a CD73 affinity reagent as well as methods of further differentiating the venous angioblasts in vitro to produce SEC-LCs and/or in vivo to produce SECs. Uses of the cells and compositions comprising the cells are also described.

A functional cell-based assay for use as a bioidentity assay for insulin or insulin analogs is described. The assay may be used as a replacement of the rabbit blood sugar method disclosed in USP<121> Insulin Assays.