Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: This invention relates to the expansion of primary cholangiocytes in the form of cholangiocyte organoids (COs) using culture conditions in which canonical Wnt signalling is inhibited and non-canonical Wnt/PCP signalling is potentiated. Methods of expanding primary cholangiocytes, expanded populations of cholangiocytes and medical applications of expanded cholangiocytes are provided.

Abstract: This invention relates to a method of producing hepatocytes comprising introducing a set of transcription factors consisting of HNF1A; HNF6; FOXA3; RORc and ER? into a population of iPSCs, and culturing the population, such that hepatocytes are produced. Methods of producing hepatocytes, hepatocytes produced by the methods and their uses and applications are provided.

Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: This invention relates to in vitro and in vivo methods for engrafting liver cells, such as cholangiocytes, into a liver comprising administering the liver cells to the biliary tree of the liver. The liver cells may be in the form of aggregates and may be administered in the direction of decreasing biliary duct diameter. This may be useful for example for the treatment of an individual with a diseased or damaged liver.

Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: This invention relates to the efficient generation of cholangiocyte progenitor (CP) cells. Foregut stem cells (FSCs) are cultured in a hepatic induction medium comprising bone morphogenetic protein (BMP) and a TGF? signalling inhibitor to produce a population of hepatoblasts. The hepatoblasts are then cultured in a biliary induction medium comprising fibroblast growth factor (FGF), retinoic acid and a TGF? ligand to produce a population of cholangiocyte progenitors (CPs). The cholangiocyte progenitors (CPs) may be matured into cholangiocyte-like cells (CLCs) that display functional properties of Common Bile Duct (CBD) cholangiocytes. Methods, kits, cell populations and uses of these cell populations are provided.

Abstract: This invention relates to the expansion of primary cholangiocytes in the form of cholangiocyte organoids (COs) using culture conditions in which canonical Wnt signalling is inhibited and non-canonical Wnt/PCP signalling is potentiated. Methods of expanding primary cholangiocytes, expanded populations of cholangiocytes and medical applications of expanded cholangiocytes are provided.

Abstract: The present invention relates to a stable method for introducing at least one inducible cassette into a cell, and permitting controllable transcription from within that inducible cassette. The method may be used for any cell type, from any eukaryotic organism, but has a particular application in the introduction of inducible cassettes into pluripotent stem cells, such as animal or human pluripotent stem cells (hPSCs). The inducible cassette is controllably inserted in such a way to ensure that the genetic material it contains is not silenced or subject to negative influences from the insertion site, and transcription of the genetic material is controlled.

Abstract: This invention relates to the efficient generation of cholangiocyte progenitor (CP) cells. Foregut stem cells (FSCs) are cultured in a hepatic induction medium comprising bone morphogenetic protein (BMP) and a TGF? signalling inhibitor to produce a population of hepatoblasts. The hepatoblasts are then cultured in a biliary induction medium comprising fibroblast growth factor (FGF), retinoic acid and a TGF? ligand to produce a population of cholangiocyte progenitors (CPs). The cholangiocyte progenitors (CPs) may be matured into cholangiocyte-like cells (CLCs) that display functional properties of Common Bile Duct (CBD) cholangiocytes. Methods, kits, cell populations and uses of these cell populations are provided.

Abstract: This invention relates to the differentiation of pluripotent cells (PSCs) into foregut stem cells (FSCs) using a definitive endoderm induction medium comprising a TGFfi ligand, fibroblast growth factor (FGF), bone morphogenetic protein (BMP) and a PI3K inhibitor to differentiate the pluripotent cells into definitive endoderm cells and a foregut induction medium comprising a TGF? ligand to differentiate the definitive endoderm cells into foregut stem cells (FSCs). Methods of differentiation, populations of foregut stem cells, culture media and kits are provided.

Abstract: This invention relates to the use of late out-growth endothelial progenitor cells (L-EPCs) as a cellular substrate for the generation of Induced pluripotent stem cells (iPSCs). This may be useful in the production of patient-specific tissues for disease modelling, drug and toxicology screening, tissue replacement and delivery of gene therapy.

Abstract: This invention relates to the in vitro differentiation of pluripotent cells into pancreatic progenitors by i) culturing pluripotent cells in a definitive endoderm (DE) medium comprising a TGFp ligand, fibroblast growth factor (FGF), bone morphogenetic protein (BMP), a PI3K inhibitor and optionally a GSK3 ? inhibitor to produce a population of definitive endoderm cells, ii) culturing the definitive endoderm cells in a first pancreatic medium comprising an activin antagonist; FGF; retinoic acid; and a BMP inhibitor to produce a population of dorsal foregut cells; iii) culturing the dorsal foregut cells in a second pancreatic medium comprising FGF, retinoic acid, a BMP inhibitor, and a hedgehog signalling inhibitor, and; iv) culturing the endoderm cells in a third pancreatic medium comprising FGF. The progenitor cells thus produced may be further differentiated into pancreatic endocrine cells. These methods may be useful, for example, in producing pancreatic cells for therapy or disease modelling.

Abstract: This invention relates to the differentiation of pluripotent cells (PSCs) into foregut stem cells (FSCs) using a definitive endoderm induction medium comprising a TGFfi ligand, fibroblast growth factor (FGF), bone morphogenetic protein (BMP) and a PI3K inhibitor to differentiate the pluripotent cells into definitive endoderm cells and a foregut induction medium comprising a TGF? ligand to differentiate the definitive endoderm cells into foregut stem cells (FSCs). Methods of differentiation, populations of foregut stem cells, culture media and kits are provided.

Abstract: This invention relates to the induction of hepatic differentiation by culturing induced pluripotent stem (iPS) cells in an endoderm induction medium to produce a population of anterior definitive endoderm (ADE) cells and then culturing the population of ADE cells in a hepatic induction medium to produce a population of hepatic progenitor cells, which may be optionally differentiated into hepatocytes. The endoderm induction medium is a chemically defined medium which has fibroblast growth factor activity, stimulates SMAD2 and SMAD3 mediated signalling pathways and SMAD1, SMAD5 and SMAD9 mediated signalling pathways, and inhibits phosphatidylinositol 3-kinase (PI3K) and glycogen synthase kinase 3? (GSK3?); and the hepatic induction medium is a chemically defined medium which stimulates SMAD2 and SMAD3 mediated signalling pathways. These methods may be useful, for example, in producing hepatocytes and hepatic progenitor cells for cell-based therapies or disease modelling.

Abstract: The invention relates to the isolation and propagation of pluripotent cells isolated from the mammalian late epiblast layer, termed Epiblast Stem Cells (EpiSCs). These cells are useful in a range of applications, including the generation of transgenic animal species.

Abstract: This invention relates to the in vitro differentiation of pluripotent cells into pancreatic progenitors by i) culturing pluripotent cells in a definitive endoderm (DE) medium comprising a TGFp ligand, fibroblast growth factor (FGF), bone morphogenetic protein (BMP), a PI3K inhibitor and optionally a GSK3 ? inhibitor to produce a population of definitive endoderm cells, ii) culturing the definitive endoderm cells in a first pancreatic medium comprising an activin antagonist; FGF; retinoic acid; and a BMP inhibitor to produce a population of dorsal foregut cells; iii) culturing the dorsal foregut cells in a second pancreatic medium comprising FGF, retinoic acid, a BMP inhibitor, and a hedgehog signalling inhibitor, and; iv) culturing the endoderm cells in a third pancreatic medium comprising FGF. The progenitor cells thus produced may be further differentiated into pancreatic endocrine cells. These methods may be useful, for example, in producing pancreatic cells for therapy or disease modelling.

Abstract: This invention relates to the use of late out-growth endothelial progenitor cells (L-EPCs) as a cellular substrate for the generation of Induced pluripotent stem cells (iPSCs). This may be useful in the production of patient-specific tissues for disease modelling, drug and toxicology screening, tissue replacement and delivery of gene therapy.