Lorraine Wallace

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. Expression of Jagged-1 and Delta-4 mRNA was seen in normal and diseased liver tissue, whereas Jagged-2, Delta-1, and Delta-3 mRNA was undetectable. In primary liver cell isolates, Jagged-1 expression was found in all cell types, whereas Delta-4 was present in biliary epithelial and liver endothelial cells, but absent in hepatocytes. Interestingly, Jagged-1 mRNA expression was significantly up-regulated in diseased liver tissue. By immunohistochemistry, Jagged-1 expression was present on most structures in normal tissue. However in disease, strikingly strong Jagged-1 immunoreactivity was observed on many small neovessels and bile ductules. The expression of downstream modulators and effectors of Notch signaling was also detectable in purified cell isolates. This, together with aberrant Jagged-1 expression suggests that the Notch signaling pathway may play a role in the neovascularization and biliary defects observed in the liver during the development of cirrhosis.

Ductular morphogenesis and functional polarization of normal human biliary epithelial cells in three-dimensional culture

BACKGROUND/AIMS The understanding of the physiology and function of human biliary epithelial cells (hBEC) has been improved by studies in monolayer culture systems. The aim was to develop a polarized model to elucidate the mechanisms of ductular morphogenesis and functional differentiation of hBEC. METHODS The morphological, phenotypic and functional properties of hBEC cultured as three-dimensional aggregates in collagen gel were assessed in medium supplemented with (or without) human hepatocyte growth factor (hHGF) and foetal bovine serum. RESULTS In the absence of added mitogens and serum, cells maintained as morphologically polarized aggregates, organized around a central lumen, were positive for phenotypic markers of biliary epithelium and negative for markers of other cell types. Functional markers, gamma-glutamyl-transferase, anion exchanger-2, responses to gamma interferon and forskolin induced secretion, were preserved. hHGF increased both the size and number of aggregates and induced hBEC to invade the gel and lumena forming anastomosing networks of cells. CONCLUSIONS Collagen gel culture in the absence of added growth factors and serum provides a model for analysis of the polarized functions of hBEC. The formation of poorly organized cords of cells in response to hHGF suggests that collagen gel culture may provide a model for the investigation of atypical ductular morphogenesis of the human biliary tract.

The Use of an Acellular Oxygen Carrier in a Human Liver Model of Normothermic Machine Perfusion

Background Normothermic machine perfusion of the liver (NMP-L) is a novel technique that preserves liver grafts under near-physiological conditions while maintaining their normal metabolic activity. This process requires an adequate oxygen supply, typically delivered by packed red blood cells (RBC). We present the first experience using an acellular hemoglobin-based oxygen carrier (HBOC) Hemopure in a human model of NMP-L. Methods Five discarded high-risk human livers were perfused with HBOC-based perfusion fluid and matched to 5 RBC-perfused livers. Perfusion parameters, oxygen extraction, metabolic activity, and histological features were compared during 6 hours of NMP-L. The cytotoxicity of Hemopure was also tested on human hepatic primary cell line cultures using an in vitro model of ischemia reperfusion injury. Results The vascular flow parameters and the perfusate lactate clearance were similar in both groups. The HBOC-perfused livers extracted more oxygen than those perfused with RBCs (O2 extraction ratio 13.75 vs 9.43 % ×105 per gram of tissue, P = 0.001). In vitro exposure to Hemopure did not alter intracellular levels of reactive oxygen species, and there was no increase in apoptosis or necrosis observed in any of the tested cell lines. Histological findings were comparable between groups. There was no evidence of histological damage caused by Hemopure. Conclusions Hemopure can be used as an alternative oxygen carrier to packed red cells in NMP-L perfusion fluid.

Impact of machine perfusion of the liver on post-transplant biliary complications: A systematic review

AIM To review the clinical impact of machine perfusion (MP) of the liver on biliary complications post-transplantation, particularly ischaemic-type biliary lesions (ITBL). METHODS This systematic review was performed in accordance with the Preferred Reporting Systematic Reviews and Meta-Analysis (PRISMA) protocol. The following databases were searched: PubMed, MEDLINE and Scopus. The keyword “liver transplantation” was used in combination with the free term “machine perfusion”. Clinical studies reporting results of transplantation of donor human livers following ex situ or in situ MP were analysed. Details relating to donor characteristics, recipients, technique of MP performed and post-operative biliary complications (ITBL, bile leak and anastomotic strictures) were critically analysed. RESULTS Fifteen articles were considered to fit the criteria for this review. Ex situ normothermic MP was used in 6 studies, ex situ hypothermic MP in 5 studies and the other 4 studies investigated in situ normothermic regional perfusion (NRP) and controlled oxygenated rewarming. MP techniques which have per se the potential to alleviate ischaemia-reperfusion injury: Such as hypothermic MP and NRP, have also reported lower rates of ITBL. Other biliary complications, such as biliary leak and anastomotic biliary strictures, are reported with similar incidences with all MP techniques. There is currently less clinical evidence available to support normothermic MP as a mitigator of biliary complications following liver transplantation. On the other hand, restoration of organ to full metabolism during normothermic MP allows assessment of hepatobiliary function before transplantation, although universally accepted criteria have yet to be validated. CONCLUSION MP of the liver has the potential to have a positive impact on post-transplant biliary complications, specifically ITBL, and expand extended criteria donor livers utilisation.

Isolation and Growth of Hepatocytes and Biliary Epithelial Cells from Normal and Diseased Human Livers

The regulation of mammalian liver regeneration is complex. From both experimental animal studies and the use of isolated hepatocytes, numerous hormones, nutrients and growth factors have been implicated (Bucher and Strain, 1992). In keeping with all mammals, the human liver regenerates following resection or injury. More recently with the advent of liver transplantation, other situations where human liver growth occurs have also become pertinent. For example, organs from younger donors transplanted into larger, older recipients enlarge to the correct organ size for body weight (Van Thiel et al., 1987) and segmental grafts also regenerate with growth and development in pediatric recipients (Emond et al., 1989). The factors which control these responses in man are not well understood.