Abstract: Disclosed herein is Brunner's Gland Stem/Progenitor Cells (BGSCs) having phenotypic traits of endodermal stem cells and positive for pluripotency markers, and methods of isolating them from the human duodenum. Moreover, the present disclosure provides that BGSCs are easily isolated from duodenum from human donors, can be expanded in culture or induced to differentiate towards hepatic and pancreatic lineages and could represent a cell source for clinical programs of regenerative medicine.

Abstract: The invention discloses the sequences of variant forms of alpha-fetoprotein transcripts that have been identified in human hemopoietic progenitors but not in differentiated mature cells. The variant forms of AFP (vAFP) cDNA sequences isolated from a multipotent hemopoietic cell line, K562, differ from the authentic AFP transcript, consisting of 15 exons, by lacking only exon 1. Instead of exon 1, vAFP transcripts use an additional one or two exons located in the 5?-untranslated region of the AFP gene. K562 expressed selectively vAFP, whereas a hepatocellular carcinoma cell line, HepG2, showed no detectable expression of vAFP. In normal adult tissues, vAFP transcripts is detected in the bone marrow, thymus and brain, but not the spleen, suggesting the expression occurs in normal hemopoietic progenitors. Moreover, CD34+Lin? hemopoietic stem/progenitor cells purified by flow cytometric sorting also express the variant transcripts.

Abstract: The present invention relates to precursor cells to hepatic stellate cells, compositions comprising same and methods of isolating same. The surface antigenic profile of the precursors is MHC class Ia negative, ICAM-1+, VCAM-1+, ?3-integrin+. In addition to expression of these surface markers, the cells also express the intracellular markers desmin, vimentin, smooth muscle ?-actin, nestin, hepatocyte growth factor, stromal derived factor-1? and H1x homeobox transcriptional factor.

Abstract: A method of obtaining a mixture of cells enriched in hepatic progenitors is developed which comprises methods yielding suspensions of a mixture of cell types, and selecting those cells that are classical MHC class I antigen(s) negative and ICAM-1 antigen positive. The weak or dull expression of nonclassical MHC class I antigen(s) can be used for further enrichment of hepatic progenitors. Furthermore, the progenitors can be selected to have a level of side scatter, a measure of granularity or cytoplasmic droplets, that is higher than that in non-parenchymal cells, such as hemopoietic cells, and lower than that in mature parenchymal cells, such as hepatocytes. Furthermore, the progeny of the isolated progenitors can express alpha-fetoprotein and/or albumin and/or CK19. The hepatic progenitors, so isolated, can grow clonally, that is an entire population of progeny can be derived from one cell. The clones of progenitors have a growth pattern in culture of piled-up aggregates or clusters.

Abstract: A method of obtaining a mixture of cells enriched in hepatic progenitors is developed which comprises methods yielding suspensions of a mixture of cell types, and selecting those cells that are classical MHC class I antigen(s) negative and ICAM-1 antigen positive. The weak or dull expression of nonclassical MHC class I antigen(s) can be used for further enrichment of hepatic progenitors. Furthermore, the progenitors can be selected to have a level of side scatter, a measure of granularity or cytoplasmic droplets, that is higher than that in non-parenchymal cells, such as hemopoietic cells, and lower than that in mature parenchymal cells, such as hepatocytes. Furthermore, the progeny of the isolated progenitors can express alpha-fetoprotein and/or albumin and/or CK19. The hepatic progenitors, so isolated, can grow clonally, that is an entire population of progeny can be derived from one cell. The clones of progenitors have a growth pattern in culture of piled-up aggregates or clusters.

Abstract: A method is provided of propagating hepatic progenitors in vitro on or in one or multiple extracellular matrix components found in the stem cell compartment or niche of liver. A container for the propagation of the progenitors and comprising culture dishes, bioreactors, or lab chips.

Abstract: A composition which comprises an animal cell population which contains immature animal cells. The immature animal cells are characterized by expression of alpha-fetoprotein or lack of essential expression of alpha-fetoprotein and albumin, and at least a portion of said immature animal cells or at least a portion of the progeny of said immature animal cells is capable of differentiating into cells which express albumin. The cell population is cultured under conditions which result in expansion of the cells. Expansion of the cells may be achieved by culturing the cells in the presence of an extracellular matrix and liver stromal cells; and preferably in the presence of growth factors. Such cells may be used for liver transplantation, artificial livers, and for toxicology and pharmacology studies. Such cells may also be genetically engineered to express proteins or polypepetides of interest.

Abstract: This invention relates to methods of isolating hepatoblasts utilizing panning techniques and fluorescence activated cell sorting. This invention further relates to isolated hepatoblasts and to a method of treating liver dysfunction as well as to methods of forming artificial livers.

Abstract: Hepatic progenitors comprise two populations of human hepatic stem cells, primitive and proximal hepatic stem cells, and two populations of committed progenitors, one for biliary cells and one for hepatocytes. Human primitive hepatic stem cells are a very small fraction of the liver cell population and give rise to proximal hepatic stem cells constituting a much larger fraction of the liver. Human proximal hepatic stem cells give rise to biliary and hepatocyte committed progenitors. Primitive and proximal stem cells are the primary stem cells for the human liver. Human primitive hepatic stem cells may be isolated by immunoselection from human livers or culturing human liver cells under conditions which select for a human primitive hepatic stem cell. Proximal hepatic stem cells may be isolated by immunoselection, or by culturing human liver cells under conditions which include a developmental factor.

Abstract: The invention discloses a biodegradable particle-cell composition having at least one biodegradable particle, at least one receptive group covalently linked thereto, and a cell anchored thereto. The particle can be polylactide, a polylactide-lysine copolymer, polylactide-lysine-polyethylene glycol copolymer, starch, or collagen. The receptive group can be an antibody, a fragment of an antibody, an avidin, a streptavidin, or a biotin moiety. Moreover, the particle can also have extracellular matrix components other than collagen. The particle-cell compositions can be used for selection of cells from a population, for cell culture of anchorage-dependent cells, for cryopreservation of anchorage-dependent cells, and for transplantation as a cell therapy.

Abstract: Methods of isolating and cryopreserving progenitors from human liver are disclosed which include processing human liver tissue to provide a substantially single cell suspension comprising progenitors and non-progenitors of one or more cell lineages found in human liver; subjecting the suspension to a debulking step, which reduces substantially the number of non-progenitors in the suspension, and which provides a debulked suspension enriched in progenitors exhibiting one or more markers associated with at least one of the one or more cell lineages; and selecting from said debulked suspension those cells, which themselves, their progeny, or more mature forms thereof express one or more markers associated with at least one of the one or more cell lineages. Among these markers are CD14, CD34, CD38, CD45, and ICAM. Hepatic progenitors are characterized as being 6-15? in diameter, diploid, glycophorin A?, CD45?, AFP+++, ALB+, ICAM+, and with subpopulations varying in expression of CD14+. CD34++, CD38++, CD117+.

Abstract: The invention discloses a biodegradable particle-cell composition having at least one biodegradable particle, at least one receptive group covalently linked thereto, and a cell anchored thereto. The particle can be polylactide, a polylactide-lysine copolymer, polylactide-lysine-polyethylene glycol copolymer, starch, or collagen. The receptive group can be an antibody, a fragment of an antibody, an avidin, a streptavidin, or a biotin moiety. Moreover, the particle can also have extracellular matrix components other than collagen. The particle-cell compositions can be used for selection of cells from a population, for cell culture of anchorage-dependent cells, for cryopreservation of anchorage-dependent cells, and for transplantation as a cell therapy.

Abstract: Hepatic progenitors comprise two populations of human hepatic stem cells, primitive and proximal hepatic stem cells, and two populations of committed progenitors, one for biliary cells and one for hepatocytes. Human primitive hepatic stem cells are a very small fraction of the liver cell population and give rise to proximal hepatic stem cells constituting a much larger fraction of the liver. Human proximal hepatic stem cells give rise to biliary and hepatocyte committed progenitors. Primitive and proximal stem cells are the primary stem cells for the human liver. Human primitive hepatic stem cells may be isolated by immunoselection from human livers or culturing human liver cells under conditions which select for a human primitive hepatic stem cell. Proximal hepatic stem cells may be isolated by immunoselection, or by culturing human liver cells under conditions which include a developmental factor.

Abstract: The invention discloses the sequences of variant forms of alpha-fetoprotein transcripts that have been identified in human hemopoietic progenitors but not in differentiated mature cells. The variant forms of AFP (vAFP) cDNA sequences isolated from a multipotent hemopoietic cell line, K562, differ from the authentic AFP transcript, consisting of 15 exons, by lacking only exon 1. Instead of exon 1, vAFP transcripts use an additional one or two exons located in the 5′-untranslated region of the AFP gene. K562 expressed selectively vAFP, whereas a hepatocellular carcinoma cell line, HepG2, showed no detectable expression of vAFP. In normal adult tissues, vAFP transcripts is detected in the bone marrow, thymus and brain, but not the spleen, suggesting the expression occurs in normal hemopoietic progenitors. Moreover, CD34+Lin− hemopoietic stem/progenitor cells purified by flow cytometric sorting also express the variant transcripts.