Human embryonic stem cells (hESCs) are a valuable source of pluripotential primary cells. To date, however, their homogeneous cellular differentiation to specific cell types in vitro has proven difficult. Wnt signaling has been shown to play important roles in coordinating development, and we demonstrate that Wnt3a is differentially expressed at critical stages of human liver development in vivo. The essential role of Wnt3a in hepatocyte differentiation from hESCs is paralleled by our in vitro model, demonstrating the importance of a physiologic approach to cellular differentiation. Our studies provide compelling evidence that Wnt3a signaling is important for coordinated hepatocellular function in vitro and in vivo. In addition, we demonstrate that Wnt3a facilitates clonal plating of hESCs exhibiting functional hepatic differentiation. These studies represent an important step toward the use of hESC-derived hepatocytes in high-throughput metabolic analysis of human liver function.definitive endoderm ͉ function ͉ hepatocyte ͉ drug metabolism ͉ high throughput H uman embryonic stem cells (hESCs) are derived from the inner cell mass of preimplantation embryos and demonstrate pluripotency in vitro and in vivo (1, 2). Such attributes allow hESCs to be differentiated down all germ lineages in large numbers and offer significant advantages over their adult stem cell counterparts, which are generally limited in their capacity to differentiate and proliferate (3). Although these hESCs provide a valuable source of adult differentiated cells, homogeneous cellular differentiation to specific germ layers has proven difficult to achieve. One potential explanation for this failure is that cells do not receive sequential developmental cues that they do in vivo.Wnt signaling has been shown to play an important role in hESC self-renewal and differentiation and stimulates numerous intracellular signal transduction cascades, including the canonical pathway regulating gene expression in the nucleus and what seems to be a network of noncanonical pathways regulating many other aspects of cell biology [reviewed by Cadigan and Liu (4)]. In the absence of Wnt signaling, -catenin is targeted for degradation; however, active Wnt signaling inhibits -catenin destruction, resulting in its nuclear translocation (5, 6). After nuclear localization, -catenin dimerizes with the nuclear proteins from the T cell factor/lymphoid enhancer factor (TCF/ LEF) family and transactivates gene expression. TCF/LEFs are not only present in transcriptional activator complexes; they also play a role in corepressor complex assembly (6).The important role played by Wnt signaling during gastrulation in vivo is evidenced by gene knockouts or dominant negatives (7, 8). Wnt3-mediated Brachyury expression is also important for migration of precursor cells through the anterior region of the primitive streak (PS). The subsequent specification of the anterior region of the PS to mesoderm or endoderm is likely to depend on the duration and magnitude of Nodal signaling (...
Hepatic progenitor cells play a major role in regenerating diseased liver. In rodents, progenitors forming hepatocytes or cholangiocytes are identified by the stem cell marker Thy-1. The aim of this study was to ascertain whether progenitor cells expressing Thy-1 could be identified in human fetal liver. Midtrimester human fetal liver was immunostained for Thy-1, cytokeratins 18 and 19, vimentin, CD34, CD45, and fibrinogen. Thy-1+ and Thy-1+CD34+ populations were purified using fluorescence-activated cell sorting (FACS). Immunofluorescence and mRNA expression were used to examine the bipotential nature of purified stem cells. We found that Thy-1+ cells were concentrated in portal tracts but were also scattered in parenchyma. In FACS-prepared cells, 0.18-3.08% (median 0.65%, n = 14) of cells were Thy-1+. Immunophenotyping revealed that some Thy-1+ cells coexpressed cytokeratins 18 and 19, others, fibrinogen and cytokeratin 19. RT-PCR demonstrated that Thy-1+ cells expressed mRNA for Thy-1, cytokeratin 18, and cytokeratin 19, and Thy-1+CD34+ cells expressed mRNA for alpha-fetoprotein, transferrin, and hepatocyte nuclear factor-4alpha. Thy-1+ cells were identified in fetal liver. These cells expressed several lineage markers, including coexpression of biliary and hepatocellular proteins and mRNA. These data suggest that Thy-1 is a marker of liver stem cells in human fetal liver.
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