Pinto Jorge P, Conceição Natércia M, Viegas Carla S B, Leite Ricardo B, Hurst Laurence D, Kelsh Robert N, Cancela M Leonor
CCMAR, University of Algarve, Campus de Gambelas, Faro, Portugal.
J Bone Miner Res. 2005 Aug;20(8):1440-53. doi: 10.1359/JBMR.050318. Epub 2005 Mar 21.
The zebrafish runx2b transcription factor is an ortholog of RUNX2 and is highly conserved at the structural level. The runx2b pebp2alphaA2 isoform induces osteocalcin gene expression by binding to a specific region of the promoter and seems to have been selectively conserved in the teleost lineage.
RUNX2 (also known as CBFA1/Osf2/AML3/PEBP2alphaA) is a transcription factor essential for bone formation in mammals, as well as for osteoblast and chondrocyte differentiation, through regulation of expression of several bone- and cartilage-related genes. Since its discovery, Runx2 has been the subject of intense studies, mainly focused in unveiling regulatory targets of this transcription factor in high vertebrates. However, no single study has been published addressing the role of Runx2 in bone metabolism of low vertebrates. While analyzing the zebrafish (Danio rerio) runx2 gene, we identified the presence of two orthologs of RUNX2, which we named runx2a and runx2b and cloned a pebp2alphaA-like transcript of the runx2b gene, which we named pebp2alphaA2.
Zebrafish runx2b gene and cDNA were isolated by RT-PCR and sequence data mining. The 3D structure of runx2b runt domain was modeled using mouse Runx1 runt as template. The regulatory effect of pebp2alphaA2 on osteocalcin expression was analyzed by transient co-transfection experiments using a luciferase reporter gene. Phylogenetic analysis of available Runx sequences was performed with TREE_PUZZLE 5.2. and MrBayes.
We showed that the runx2b gene structure is highly conserved between mammals and fish. Zebrafish runx2b has two promoter regions separated by a large intron. Sequence analysis suggested that the runx2b gene encodes three distinct isoforms, by a combination of alternative splicing and differential promoter activation, as described for the human gene. We have cloned a pebp2alphaA-like transcript of the runx2b gene, which we named pebp2alphaA2, and showed its high degree of sequence similarity with the mammalian pebp2alphaA. The cloned zebrafish osteocalcin promoter was found to contain three putative runx2-binding elements, and one of them, located at -221 from the ATG, was capable of mediating pebp2alphaA2 transactivation. In addition, cross-species transactivation was also confirmed because the mouse Cbfa1 was able to induce the zebrafish osteocalcin promoter, whereas the zebrafish pebp2alphaA2 activated the murine osteocalcin promoter. These results are consistent with the high degree of evolutionary conservation of these proteins. The 3D structure of the runx2b runt domain was modeled based on the runt domain of mouse Runx1. Results show a high degree of similarity in the 3D configuration of the DNA binding regions from both domains, with significant differences only observed in non-DNA binding regions or in DNA-binding regions known to accommodate considerable structure flexibility. Phylogenetic analysis was used to clarify the relationship between the isoforms of each of the two zebrafish Runx2 orthologs and other Runx proteins. Both zebrafish runx2 genes clustered with other Runx2 sequences. The duplication event seemed, however, to be so old that, whereas Runx2b clearly clusters with the other fish sequences, it is unclear whether Runx2a clusters with Runx2 from higher vertebrates or from other fish.
斑马鱼runx2b转录因子是RUNX2的直系同源物,在结构水平上高度保守。runx2b pebp2alphaA2亚型通过与启动子的特定区域结合来诱导骨钙素基因表达,并且似乎在硬骨鱼系中被选择性地保留了下来。
RUNX2(也称为CBFA1/Osf2/AML3/PEBP2alphaA)是一种转录因子,对哺乳动物的骨形成以及成骨细胞和软骨细胞的分化至关重要,它通过调控多个与骨和软骨相关基因的表达来实现这一功能。自发现以来,Runx2一直是深入研究的对象,主要集中在揭示这种转录因子在高等脊椎动物中的调控靶点。然而,尚未有针对Runx2在低等脊椎动物骨代谢中的作用的单一研究发表。在分析斑马鱼(Danio rerio)的runx2基因时,我们鉴定出了RUNX2的两个直系同源物,我们将其命名为runx2a和runx2b,并克隆了runx2b基因的一个类似pebp2alphaA的转录本,我们将其命名为pebp2alphaA2。
通过RT-PCR和序列数据挖掘分离斑马鱼runx2b基因和cDNA。以小鼠Runx1 runt结构域为模板对runx2b runt结构域的三维结构进行建模。使用荧光素酶报告基因通过瞬时共转染实验分析pebp2alphaA2对骨钙素表达的调控作用。利用TREE_PUZZLE 5.2和MrBayes对现有的Runx序列进行系统发育分析。
我们发现runx2b基因结构在哺乳动物和鱼类之间高度保守。斑马鱼runx2b有两个被一个大内含子隔开的启动子区域。序列分析表明,runx2b基因通过可变剪接和不同启动子激活的组合编码三种不同的亚型,这与人类基因的情况类似。我们克隆了runx2b基因的一个类似pebp2alphaA的转录本,命名为pebp2alphaA2,并显示其与哺乳动物pebp2alphaA具有高度的序列相似性。发现克隆的斑马鱼骨钙素启动子包含三个假定的runx2结合元件,其中一个位于距ATG -221处,能够介导pebp2alphaA2的反式激活。此外,还证实了跨物种反式激活,因为小鼠Cbfa1能够诱导斑马鱼骨钙素启动子,而斑马鱼pebp2alphaA2能够激活小鼠骨钙素启动子。这些结果与这些蛋白质的高度进化保守性一致。基于小鼠Runx1的runt结构域对runx2b runt结构域的三维结构进行建模。结果显示两个结构域的DNA结合区域的三维构型高度相似,仅在非DNA结合区域或已知具有相当结构灵活性的DNA结合区域观察到显著差异。系统发育分析用于阐明斑马鱼两个Runx2直系同源物的各亚型与其他Runx蛋白之间的关系。两个斑马鱼runx2基因都与其他Runx2序列聚类。然而,复制事件似乎发生得非常早,以至于虽然Runx2b明显与其他鱼类序列聚类,但尚不清楚Runx2a是与高等脊椎动物的Runx2聚类还是与其他鱼类的Runx2聚类。
