Abstract
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.
Highlights
Pancreatic buds, as well as the duodenal endoderm [1,2,3]
Area I/Area II Alone Controls the  Cell Line-specific Activation Properties of the Ϫ2917/Ϫ1918-bp Region—A comprehensive transgenic analysis of the 5Ј-flanking region of the mouse pdx-1 gene revealed that the Ϫ2917 to Ϫ1918 bp region was uniquely capable of directing islet cell-selective expression [13]
Whereas Area II was able to direct transgenic expression to islet cells, activity was only found in a small fraction of the pancreatic-duodenal homeobox-1 (PDX-1) producing cells detected with the Ϫ2917/Ϫ1918 bp-driven transgene [18]
Summary
Pancreatic buds, as well as the duodenal endoderm [1,2,3]. Homozygous disruption of the pdx-1 gene in mice and humans results in pancreatic agenesis [1, 2, 4]. Transgenic analysis has demonstrated that cell type-specific expression in the pancreas, stomach, and duodenum is mediated by sequences within 6.5 or 4.5 kilobase pairs upstream of the transcription start site in the rat and mouse genes, respectively [4, 11,12,13] This area contains several domains of significant identity between mouse, human, and chicken, termed Areas I (mouse bp Ϫ2761 to Ϫ2457), III (bp Ϫ1879 to Ϫ1600), and IV (bp Ϫ6529 to Ϫ6047), and one mammalian-specific identity domain, Area II (bp Ϫ2153 to Ϫ1923) [14, 15]. Cell line-based assays suggested that distinct properties of Area I were necessary for potentiating Area II-directed activity, in that neither non-conserved pdx-1 region sequences nor the ubiquitously active SV40 enhancer region
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