Adhesion of human haematopoietic (CD34+) stem cells to human liver compartments is integrin and CD44 dependent and modulated by CXCR3 and CXCR4.

Background/aims: Haematopoietic stem cells (HSC) have previously been shown in some studies to migrate to damaged and diseased liver where a small proportion will engraft. Such cells can promote liver repair in rodent models of liver injury and lead to improved liver function in uncontrolled clinical studies. In order to maximize the engraftment of cells for clinical applications it is necessary to understand the molecular mechanisms that regulate stem cell recruitment and retention.

A novel cell-surface marker found on human embryonic hepatoblasts and a subpopulation of hepatic biliary epithelial cells.

The nature of the cells that contribute to the repopulation of the liver after hepatic necrosis or cirrhosis remains uncertain, in part because we lack specific markers to facilitate identification and prospective isolation of progenitor cells. The monoclonal antibody GCTM-5 reacts with a minority subpopulation of cells in spontaneously differentiating cultures of pluripotent human embryonal carcinoma or embryonic stem cells. The epitope recognized by GCTM-5 is found on a 50-kDa protein present on the surface of these cells.

The role of Notch receptor expression in bile duct development and disease.

Mutations in the Jagged1 gene, a ligand for the Notch signalling pathway, have been implicated in the pathogenesis of Alagille syndrome (AGS), resulting in bile duct paucity. Recently, a mouse model for AGS suggested that abnormalities of the Notch2 receptor, as well as of Jagged1, may be present. Expression patterns of Notch receptors have not been described in the developing human liver or in paediatric liver.

Nomenclature of the finer branches of the biliary tree: canals, ductules, and ductular reactions in human livers.

The work of liver stem cell biologists, largely carried out in rodent models, has now started to manifest in human investigations and applications. We can now recognize complex regenerative processes in tissue specimens that had only been suspected for decades, but we also struggle to describe what we see in human tissues in a way that takes into account the findings from the animal investigations, using a language derived from species not, in fact, so much like our own. This international group of liver pathologists and hepatologists, most of whom are actively engaged in both clinical work and scientific research, seeks to arrive at a consensus on nomenclature for normal human livers and human reactive lesions that can facilitate more rapid advancement of our field.

Human liver-derived stem cells.

The search for human oval cells or bi-potential stem cells in the human liver is the subject of intensive investigation. Fetal hepatocytes (hepatoblasts) have some proliferative and bipotential capacity, but access to sufficient numbers of cells remains limiting. Candidate stem cells in the adult normal and diseased human liver have been identified using markers such as OV6, CD34, c-kit and NCAM.

Progenitor cells of the biliary epithelial cell lineage.

Stem-like cells have been identified in liver that are able to differentiate in vivo and in culture to biliary epithelial cells (BEC), hepatocytes and oval cells. The growth factors/cytokines and signal pathways required for the differentiation processes are beginning to be evaluated. There is increasing evidence to suggest that these stem-like cells may originate from both the bone marrow population or from a precursor remnant from liver embryogenesis, as they share many of the same markers (CD34, c-kit, CD45).

Altered Notch ligand expression in human liver disease: further evidence for a role of the Notch signaling pathway in hepatic neovascularization and biliary ductular defects.

The Jagged and Delta family of transmembrane proteins are ligands for Notch receptors, which control the proliferation and/or differentiation of many cell lineages. Expression and localization of these ligands in the adult human liver has not been fully elucidated, nor whether dysregulation of these proteins contributes to liver disease processes. We have examined expression of the five known Notch ligands in human liver.