Anderson Keith R, White Peter, Kaestner Klaus H, Sussel Lori
Department of Biochemistry and Program in Molecular Biology, University of Colorado Health Science Center, Denver, CO 80045, USA.
BMC Dev Biol. 2009 Dec 10;9:65. doi: 10.1186/1471-213X-9-65.
The homeodomain containing transcription factor Nkx2.2 is essential for the differentiation of pancreatic endocrine cells. Deletion of Nkx2.2 in mice leads to misspecification of islet cell types; insulin-expressing beta cells and glucagon-expressing alpha cells are replaced by ghrelin-expressing cells. Additional studies have suggested that Nkx2.2 functions both as a transcriptional repressor and activator to regulate islet cell formation and function. To identify genes that are potentially regulated by Nkx2.2 during the major wave of endocrine and exocrine cell differentiation, we assessed gene expression changes that occur in the absence of Nkx2.2 at the onset of the secondary transition in the developing pancreas.
Microarray analysis identified 80 genes that were differentially expressed in e12.5 and/or e13.5 Nkx2.2-/- embryos. Some of these genes encode transcription factors that have been previously identified in the pancreas, clarifying the position of Nkx2.2 within the islet transcriptional regulatory pathway. We also identified signaling factors and transmembrane proteins that function downstream of Nkx2.2, including several that have not previously been described in the pancreas. Interestingly, a number of known exocrine genes are also misexpressed in the Nkx2.2-/- pancreas.
Expression profiling of Nkx2.2-/- mice during embryogenesis has allowed us to identify known and novel pancreatic genes that function downstream of Nkx2.2 to regulate pancreas development. Several of the newly identified signaling factors and transmembrane proteins may function to influence islet cell fate decisions. These studies have also revealed a novel function for Nkx2.2 in maintaining appropriate exocrine gene expression. Most importantly, Nkx2.2 appears to function within a complex regulatory loop with Ngn3 at a key endocrine differentiation step.
含同源结构域的转录因子Nkx2.2对胰腺内分泌细胞的分化至关重要。在小鼠中缺失Nkx2.2会导致胰岛细胞类型指定错误;表达胰岛素的β细胞和表达胰高血糖素的α细胞被表达胃饥饿素的细胞取代。进一步的研究表明,Nkx2.2既作为转录抑制因子又作为激活因子来调节胰岛细胞的形成和功能。为了鉴定在内分泌和外分泌细胞分化的主要阶段可能受Nkx2.2调控的基因,我们评估了在发育中的胰腺次级转变开始时Nkx2.2缺失情况下发生的基因表达变化。
微阵列分析鉴定出在e12.5和/或e13.5的Nkx2.2基因敲除胚胎中差异表达的80个基因。其中一些基因编码先前在胰腺中已鉴定出的转录因子,阐明了Nkx2.2在胰岛转录调控途径中的位置。我们还鉴定出在Nkx2.2下游起作用的信号因子和跨膜蛋白,包括一些先前未在胰腺中描述过的蛋白。有趣的是,许多已知的外分泌基因在Nkx2.2基因敲除的胰腺中也表达错误。
对Nkx2.2基因敲除小鼠胚胎发育过程中的表达谱分析使我们能够鉴定出在Nkx2.2下游起作用以调节胰腺发育的已知和新的胰腺基因。几个新鉴定出的信号因子和跨膜蛋白可能影响胰岛细胞命运决定。这些研究还揭示了Nkx2.2在维持适当的外分泌基因表达方面的新功能。最重要的是,在关键的内分泌分化步骤中,Nkx2.2似乎在与Ngn3的复杂调控环中发挥作用。
