Laboratoire Génétique Moléculaire, Signalisation et Cancer, Centre National de Recherche Scientifique, UMR5201, Université Claude Bernard Lyon1, Centre LEON-BERARD, Lyon, France.
Gastroenterology. 2010 May;138(5):1954-65. doi: 10.1053/j.gastro.2010.01.046. Epub 2010 Feb 2.
BACKGROUND & AIMS: The tumor suppressor menin is recognized as a key regulator of pancreatic islet development, proliferation, and beta-cell function, whereas its role in alpha cells remains poorly understood. The purpose of the current study was to address this issue in relation to islet tumor histogenesis.
We generated alpha cell-specific Men1 mutant mice with Cre/loxP technology and carried out analyses of pancreatic lesions developed in the mutant mice during aging.
We showed that, despite the alpha-cell specificity of the GluCre transgene, both glucagonomas and a large amount of insulinomas developed in mutant mice older than 6 months, accompanied by mixed islet tumors. Interestingly, the cells sharing characteristics of both alpha and beta cells were identified shortly after the appearance of menin-deficient alpha cells but well before the tumor onset. Using a genetic cell lineage tracing analysis, we demonstrated that insulinoma cells were directly derived from transdifferentiating glucagon-expressing cells. Furthermore, our data indicated that the expression of Pdx1, MafA, Pax4, and Ngn3 did not seem to be required for the initiation of this transdifferentiation.
Our work shows cell transdifferentiation as a novel mechanism involved in islet tumor development and provides evidence showing that menin regulates the plasticity of differentiated pancreatic alpha cells in vivo, shedding new light on the mechanisms of islet tumorigenesis.
抑癌基因 menin 被认为是胰岛发育、增殖和β细胞功能的关键调节因子,但其在α细胞中的作用仍知之甚少。本研究旨在探讨其与胰岛肿瘤发生的关系。
我们利用 Cre/loxP 技术生成了α细胞特异性 Men1 突变小鼠,并对突变小鼠在衰老过程中发生的胰腺病变进行了分析。
尽管 GluCre 转基因具有α细胞特异性,但在 6 个月以上的突变小鼠中,不仅出现了胰高血糖素瘤,还出现了大量的胰岛素瘤,伴有混合胰岛肿瘤。有趣的是,menin 缺失的α细胞出现后不久,就发现了具有α和β细胞特征的细胞,但肿瘤发生前尚未发现。通过遗传细胞谱系追踪分析,我们证明了胰岛素瘤细胞是由表达胰高血糖素的细胞直接转分化而来的。此外,我们的数据表明,Pdx1、MafA、Pax4 和 Ngn3 的表达似乎不是这种转分化的起始所必需的。
我们的工作表明细胞转分化是参与胰岛肿瘤发生的一种新机制,并提供了证据表明,menin 在体内调节分化的胰腺α细胞的可塑性,为胰岛肿瘤发生的机制提供了新的认识。
