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First published online 27 July 2004
doi: 10.1242/dev.01280

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Notch inhibits Ptf1 function and acinar cell differentiation in developing mouse and zebrafish pancreas

Farzad Esni^1,*, Bidyut Ghosh^1,*, Andrew V. Biankin¹, John W. Lin¹, Megan A. Albert, Xiaobing Yu², Raymond J. MacDonald³, Curt I. Civin², Francisco X. Real⁴, Michael A. Pack^5,6, Douglas W. Ball² and Steven D. Leach^1,2,

¹ Department of Surgery, Johns Hopkins University School of Medicine, Baltimore, MD 21287, USA
² Department of Oncology, Johns Hopkins University School of Medicine, Baltimore, MD 21287, USA
³ Department of Molecular Biology, University of Texas Southwestern Medical Center, Dallas, TX 75390-9148, USA
⁴ Unitat de Biologia Cellular i Molecular, Institut Municipal d'Investigació Mèdica, Universitat Pompeu Fabra, 08003 Barcelona, Spain
⁵ Department of Medicine, University of Pennsylvania, Philadelphia, PA 19104, USA
⁶ Department of Cell and Developmental Biology, University of Pennsylvania, Philadelphia, PA 19104, USA

Author for correspondence (e-mail: stleach{at}jhmi.edu)

Accepted 25 May 2004

Notch signaling regulates cell fate decisions in a variety of adult and embryonic tissues, and represents a characteristic feature of exocrine pancreatic cancer. In developing mouse pancreas, targeted inactivation of Notch pathway components has defined a role for Notch in regulating early endocrine differentiation, but has been less informative with respect to a possible role for Notch in regulating subsequent exocrine differentiation events. Here, we show that activated Notch and Notch target genes actively repress completion of an acinar cell differentiation program in developing mouse and zebrafish pancreas. In developing mouse pancreas, the Notch target gene Hes1 is co-expressed with Ptf1-P48 in exocrine precursor cells, but not in differentiated amylase-positive acinar cells. Using lentiviral delivery systems to induce ectopic Notch pathway activation in explant cultures of E10.5 mouse dorsal pancreatic buds, we found that both Hes1 and Notch1-IC repress acinar cell differentiation, but not Ptf1-P48 expression, in a cell-autonomous manner. Ectopic Notch activation also delays acinar cell differentiation in developing zebrafish pancreas. Further evidence of a role for endogenous Notch in regulating exocrine pancreatic differentiation was provided by examination of zebrafish embryos with homozygous mindbomb mutations, in which Notch signaling is disrupted. mindbomb-deficient embryos display accelerated differentiation of exocrine pancreas relative to wild-type clutchmate controls. A similar phenotype was induced by expression of a dominant-negative Suppressor of Hairless [Su(H)] construct, confirming that Notch actively represses acinar cell differentiation during zebrafish pancreatic development. Using transient transfection assays involving a Ptf1-responsive reporter gene, we further demonstrate that Notch and Notch/Su(H) target genes directly inhibit Ptf1 activity, independent of changes in expression of Ptf1 component proteins. These results define a normal inhibitory role for Notch in the regulation of exocrine pancreatic differentiation.

Key words: Zebrafish, Mouse, Pancreatic, Exocrine, Embryo, p48

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