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BACKGROUND/PURPOSE: Retinoid signaling plays an important role in many differentiation pathways. Retinoid signaling has been implicated in the induction of differentiation by pancreatic ductal cancer cell lines and in patients with pancreatic cancer. The authors wished to better understand the role of retinoid signaling in pancreatic development. METHODS: Embryonic pancreas was harvested from mice at serial gestational ages and immunohistochemical analysis was performed for retinoic acid receptors (RAR-alpha,RAR-beta,RAR-gamma),and retinoid X receptors (RXR-alpha,RXR-beta,and RXR-gamma). Also,early embryonic pancreases were cultured for 7 days with exogenous 9-cis retinoic acid (9cRA) or all-trans retinoic acid (atRA) and analyzed histologically and immunohistochemically. RESULTS: Retinoid receptors were expressed in a lineage-specific distribution,with stronger expression for many in the exocrine compartment. The receptors were not often expressed until late gestation. Exogenous 9cRA induced predominantly ducts instead of acini,plus more mature endocrine (islet) architecture. Exogenous atRA induced predominantly acini instead of ducts,with no apparent endocrine effect. CONCLUSIONS: Retinoids may have an important role in pancreatic differentiation,with a particular effect on secondary lineage selection between ductal and acinar phenotype. Because the control of ductal versus acinar differentiation has been implicated strongly in the pathogenesis of pancreatic ductal carcinoma,these results may lay the groundwork for studies in the mechanism of induced differentiation of pancreatic ductal cancer by retinoids. View Publication

Differentiating embryonic stem (ES) cells are an increasingly important source of hematopoietic progenitors,useful for both basic research and clinical applications. Besides their characterization in colony assays,protocols exist for the cultivation of lymphoid,myeloid,and erythroid cells. With the possible exception of mast cells,however,long-term expansion of pure hematopoietic progenitors from ES cells has not been possible without immortalization caused by overexpression of exogenous genes. Here,we describe for the first time an efficient yet easy strategy to generate mass cultures of pure,immature erythroid progenitors from mouse ES cells (ES-EPs),using serum-free medium plus recombinant cytokines and hormones. ES-EPs represent long-lived,adult,definitive erythroid progenitors that resemble immature erythroid cells expanding in vivo during stress erythropoiesis. When exposed to terminal differentiation conditions,ES-EPs differentiated into mature,enucleated erythrocytes. Importantly,ES-EPs injected into mice did not exhibit tumorigenic potential but differentiated into normal erythrocytes. Both the virtually unlimited supply of cells and the defined culture conditions render our system a valuable tool for the analysis of factors influencing proliferation and maturation of erythroid progenitors. In addition,the system allows detailed characterization of processes during erythroid proliferation and differentiation using wild-type (wt) and genetically modified ES cells. View Publication

Inductive signals and transcription factors involved in motor neuron generation have been identified,raising the question of whether these developmental insights can be used to direct stem cells to a motor neuron fate. We show that developmentally relevant signaling factors can induce mouse embryonic stem (ES) cells to differentiate into spinal progenitor cells,and subsequently into motor neurons,through a pathway recapitulating that used in vivo. ES cell-derived motor neurons can populate the embryonic spinal cord,extend axons,and form synapses with target muscles. Thus,inductive signals involved in normal pathways of neurogenesis can direct ES cells to form specific classes of CNS neurons. View Publication

Stepwise differentiation from embryonic stem cells (ESCs) to functional insulin-secreting beta cells will identify key steps in beta-cell development and may yet prove useful for transplantation therapy for diabetics. An essential step in this schema is the generation of pancreatic progenitors--cells that express Pdx1 and produce all the cell types of the pancreas. High-content chemical screening identified a small molecule,(-)-indolactam V,that induces differentiation of a substantial number of Pdx1-expressing cells from human ESCs. The Pdx1-expressing cells express other pancreatic markers and contribute to endocrine,exocrine and duct cells,in vitro and in vivo. Further analyses showed that (-)-indolactam V works specifically at one stage of pancreatic development,inducing pancreatic progenitors from definitive endoderm. This study describes a chemical screening platform to investigate human ESC differentiation and demonstrates the generation of a cell population that is a key milepost on the path to making beta cells. View Publication

The amyloid-beta precursor protein (AbetaPP) is a ubiquitously expressed transmembrane protein whose cleavage product,the amyloid-beta (Abeta) protein,is deposited in amyloid plaques in neurodegenerative conditions such as Alzheimer disease,Down syndrome,and head injury. We recently reported that this protein,normally associated with neurodegenerative conditions,is expressed by human embryonic stem cells (hESCs). We now report that the differential processing of AbetaPP via secretase enzymes regulates the proliferation and differentiation of hESCs. hESCs endogenously produce amyloid-beta,which when added exogenously in soluble and fibrillar forms but not oligomeric forms markedly increased hESC proliferation. The inhibition of AbetaPP cleavage by beta-secretase inhibitors significantly suppressed hESC proliferation and promoted nestin expression,an early marker of neural precursor cell (NPC) formation. The induction of NPC differentiation via the non-amyloidogenic pathway was confirmed by the addition of secreted AbetaPPalpha,which suppressed hESC proliferation and promoted the formation of NPCs. Together these data suggest that differential processing of AbetaPP is normally required for embryonic neurogenesis. View Publication

UNLABELLED The differentiation capacity of human embryonic stem cells (hESCs) holds great promise for therapeutic applications. We report a novel three-stage method to efficiently direct the differentiation of human embryonic stem cells into hepatic cells in serum-free medium. Human ESCs were first differentiated into definitive endoderm cells by 3 days of Activin A treatment. Next,the presence of fibroblast growth factor-4 and bone morphogenetic protein-2 in the culture medium for 5 days induced efficient hepatic differentiation from definitive endoderm cells. Approximately 70% of the cells expressed the hepatic marker albumin. After 10 days of further in vitro maturation,these cells expressed the adult liver cell markers tyrosine aminotransferase,tryptophan oxygenase 2,phosphoenolpyruvate carboxykinase (PEPCK),Cyp7A1,Cyp3A4 and Cyp2B6. Furthermore,these cells exhibited functions associated with mature hepatocytes including albumin secretion,glycogen storage,indocyanine green,and low-density lipoprotein uptake,and inducible cytochrome P450 activity. When transplanted into CCl4 injured severe combined immunodeficiency mice,these cells integrated into the mouse liver and expressed human alpha-1 antitrypsin for at least 2 months. In addition,we found that the hESC-derived hepatic cells were readily infected by human immunodeficiency virus-hepatitis C virus pseudotype viruses. CONCLUSION We have developed an efficient way to direct the differentiation of human embryonic stem cells into cells that exhibit characteristics of mature hepatocytes. Our studies should facilitate searching the molecular mechanisms underlying human liver development,and form the basis for hepatocyte transplantation and drug tests. View Publication

B lymphocyte stimulator (BLyS) is a well-known direct costimulator of adaptive immune cells,particularly B lineage cells. However,we have reported recently that BLyS is also able to activate monocytes. Other innate immune cells,such as dendritic cells (DCs),play a key role in the initiation of adaptive immune responses and the purpose of the current study was to assess whether there is a direct role for BLyS in modulating human DC functions. In this study,we show that BLyS induces DC activation and maturation. Thus,BLyS strongly induced up-regulation of surface costimulatory molecule expression and secretion of specific cytokines and chemokines in DCs. BLyS-stimulated DCs (BLyS-DCs) were also able to augment allogeneic CD4 T cell proliferation to a greater extent than control DCs. BLyS-DCs secreted elevated levels of the major Th1-polarizing cytokine,IL-12p70,and they promoted naive CD4 T cell differentiation into Th1 T cells. Regarding BLyS receptor expression,DCs primarily express cytoplasmic transmembrane activator and CAML interactor; however,low levels of cell surface transmembrane activator and CAML interactor are expressed as well. Collectively,our data suggest that BLyS may modulate adaptive immune cells indirectly by inducing DC maturation. View Publication

Although the importance of natural killer (NK) cells in innate immune responses against tumors or viral infections are well documented,their ability to directly recognize pathogens is less well defined. We have recently reported FimH,a bacterial fimbrial protein,as a novel Toll-like receptor (TLR)4 ligand that potently induces antiviral responses. Here,we investigated whether FimH either directly or indirectly can activate human and murine NK cells. We demonstrate that FimH potently activates both human and murine NK cells in vitro to induce cytokines [interferon (IFN)-gamma and tumor necrosis factor (TNF)-alpha] and cytotoxicity. Importantly,NK cells directly recognize FimH-expressing pathogens as FimH(+),but not FimH(-),bacteria were able to activate human NK cells. FimH activation of NK cells required TLR4 and MyD88 signaling,as NK cells from both TLR4(-/-) and MyD88(-/-) mice as well as human NK-92 cells,which lack TLR4,were all unresponsive to FimH. In addition,TLR4 neutralization significantly abrogated the response of human NK cells to FimH. Activation of purified NK cells by FimH was independent of lipopolysaccharide (LPS) or other bacterial contaminations. These data demonstrate for the first time that highly purified NK cells directly recognize and respond to FimH via TLR4-MyD88 pathways to aid innate protection against cancer or microbial infections. View Publication