Van Velkinburgh Jennifer C, Samaras Susan E, Gerrish Kevin, Artner Isabella, Stein Roland
Department of Molecular Physiology and Biophysics, Vanderbilt Medical Center, Nashville, Tennessee 37232, USA.
J Biol Chem. 2005 Nov 18;280(46):38438-44. doi: 10.1074/jbc.M508594200. Epub 2005 Sep 7.
PDX-1 regulates transcription of genes involved in islet beta cell function and pancreas development. Islet-specific expression is controlled by 5'-flanking sequences from base pair (bp) -2917 to -1918 in transgenic experiments, which encompasses both conserved (i.e. Area I (bp -2761/-2457), Area II (bp -2153/-1923)) and non-conserved pdx-1 sequences. However, only an Area II-driven transgene is independently active in vivo, albeit in only a fraction of islet PDX-1-producing cells. Our objective was to identify the sequences within the -2917/-1918-bp region that act in conjunction with Area II to allow comprehensive expression in islet PDX-1(+) cells. In cell line-based transfection assays, only Area I effectively potentiated Area II activity. Both Area I and Area II functioned in an orientation-independent manner, whereas synergistic, enhancer-like activation was uniquely found with duplicated Area II. Chimeras of Area II and the generally active SV40 enhancer or the beta cell-specific insulin enhancer suggested that islet cell-enriched activators were necessary for Area I activation, because Area II-mediated stimulation was reduced by the SV40 enhancer and activated by the insulin enhancer. Several conserved sites within Area I were important in Area I/Area II activation, with binding at bp -2614/-2609 specifically controlled by Nkx2.2, an insulin gene regulator that is required for terminal beta cell differentiation. The ability of Area I to modulate Area II activation was also observed in vivo, as an Area I/Area II-driven transgene recapitulated the endogenous pdx-1 expression pattern in developing and adult islet cells. These results suggest that Area II is a central pdx-1 control region, whose islet cell activity is uniquely modified by Area I regulatory factors.
PDX-1调节参与胰岛β细胞功能和胰腺发育的基因转录。在转基因实验中,胰岛特异性表达由5'-侧翼序列(从碱基对(bp)-2917至-1918)控制,该序列包含保守的(即区域I(bp -2761/-2457)、区域II(bp -2153/-1923))和非保守的pdx-1序列。然而,只有区域II驱动的转基因在体内具有独立活性,尽管仅在一部分产生胰岛PDX-1的细胞中。我们的目标是确定-2917/-1918-bp区域内与区域II协同作用以允许在胰岛PDX-1(+)细胞中全面表达的序列。在基于细胞系的转染实验中,只有区域I有效增强了区域II的活性。区域I和区域II均以方向独立的方式发挥作用,而协同的、增强子样激活仅在重复的区域II中发现。区域II与通常活跃的SV40增强子或β细胞特异性胰岛素增强子的嵌合体表明,胰岛细胞富集的激活剂对于区域I的激活是必需的,因为区域II介导的刺激被SV40增强子降低而被胰岛素增强子激活。区域I内的几个保守位点在区域I/区域II激活中很重要,在bp -2614/-2609处的结合由Nkx2.2特异性控制,Nkx2.2是终末β细胞分化所需的胰岛素基因调节因子。在体内也观察到区域I调节区域II激活的能力,因为区域I/区域II驱动的转基因在发育中和成年胰岛细胞中重现了内源性pdx-1表达模式。这些结果表明区域II是一个核心pdx-1控制区域,其胰岛细胞活性由区域I调节因子独特地修饰。
