Murtaugh L Charles, Stanger Ben Z, Kwan Kristen M, Melton Douglas A
Howard Hughes Medical Institute and Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138, USA.
Proc Natl Acad Sci U S A. 2003 Dec 9;100(25):14920-5. doi: 10.1073/pnas.2436557100. Epub 2003 Dec 1.
Multiple cell types of the pancreas appear asynchronously during embryogenesis, which requires that pancreatic progenitor cell potential changes over time. Loss-of-function studies have shown that Notch signaling modulates the differentiation of these progenitors, but it remains unclear how and when the Notch pathway acts. We established a modular transgenic system to heritably activate mouse Notch1 in multiple types of progenitors and differentiated cells. We find that misexpression of activated Notch in Pdx1-expressing progenitor cells prevents differentiation of both exocrine and endocrine lineages. Progenitors remain trapped in an undifferentiated state even if Notch activation occurs long after the pancreas has been specified. Furthermore, endocrine differentiation is associated with escape from this activity, because Ngn3-expressing endocrine precursors are susceptible to Notch inhibition, whereas fully differentiated endocrine cells are resistant.
胰腺的多种细胞类型在胚胎发育过程中异步出现,这要求胰腺祖细胞的潜能随时间发生变化。功能丧失研究表明,Notch信号通路调节这些祖细胞的分化,但Notch通路如何以及何时发挥作用仍不清楚。我们建立了一个模块化转基因系统,以在多种类型的祖细胞和分化细胞中可遗传地激活小鼠Notch1。我们发现,在表达Pdx1的祖细胞中激活Notch的错误表达会阻止外分泌和内分泌谱系的分化。即使在胰腺已经确定很久之后才发生Notch激活,祖细胞仍被困在未分化状态。此外,内分泌分化与摆脱这种活性有关,因为表达Ngn3的内分泌前体对Notch抑制敏感,而完全分化的内分泌细胞则具有抗性。