Tremblay J J, Goodyer C G, Drouin J
Laboratoire de génétique moléculaire, Institut de recherches cliniques de Montréal, Canada.
Neuroendocrinology. 2000 May;71(5):277-86. doi: 10.1159/000054547.
The Ptx (Pitx) family of homeobox transcription factors comprises Ptx1, Ptx2 and Ptx3. Ptx1 and Ptx2 are expressed in the stomodeum and its derivatives including the pituitary, as well as in mesodermal derivatives, whereas Ptx3 is expressed in one neuronal lineage of the brain and in the eyes. A large set of downstream target genes have been identified for Ptx1 in the pituitary gland where it acts as a pan-pituitary regulator of transcription. In particular, Ptx1 contributes to promoter- and lineage-specific transcription by interaction with cell-restricted factors such as SF-1, Egr-1, Pit1, and the basic helix-loop-helix heterodimer NeuroD1/Pan1. We describe the cloning from pituitary cells and the characterization of a Ptx1 isoform, named Ptx1b, generated by alternative promoter usage. The two Ptx1 and two Ptx2 isoforms have similar in vitro DNA binding specificities and they all activate transcription driven by a panel of pituitary promoters, including those for proopiomelanocortin, alphaGSU, LHbeta, FSHbeta, GnRH-R, TSHbeta, PRL, and GH. Also like Ptx1, the Ptx1b, Ptx2a, and Ptx2b transcription factors synergize with the structurally unrelated factors SF-1, Egr-1, Pit1, and NeuroD1/Pan1 to activate promoter-specific transcription. In conclusion, the pituitary transcriptional activities of the four Ptx isoforms do not appear to be dependent on the variant N-termini of these factors.
同源异型盒转录因子Ptx(Pitx)家族由Ptx1、Ptx2和Ptx3组成。Ptx1和Ptx2在口凹及其衍生物(包括垂体)以及中胚层衍生物中表达,而Ptx3在大脑的一个神经谱系和眼睛中表达。在垂体中已鉴定出大量Ptx1的下游靶基因,Ptx1在垂体中作为一种全垂体转录调节因子发挥作用。特别是,Ptx1通过与细胞限制性因子(如SF-1、Egr-1、Pit1以及碱性螺旋-环-螺旋异二聚体NeuroD1/Pan1)相互作用,促进启动子特异性和谱系特异性转录。我们描述了从垂体细胞中克隆以及对一种通过选择性使用启动子产生的Ptx1亚型(命名为Ptx1b)的特性研究。两种Ptx1和两种Ptx2亚型具有相似的体外DNA结合特异性,并且它们都能激活由一组垂体启动子驱动的转录,这些启动子包括促肾上腺皮质激素原、αGSU、LHβ、FSHβ、GnRH-R、TSHβ、PRL和GH的启动子。同样与Ptx1一样,Ptx1b、Ptx2a和Ptx2b转录因子与结构不相关的因子SF-1、Egr-1、Pit1和NeuroD1/Pan1协同作用,以激活启动子特异性转录。总之,四种Ptx亚型的垂体转录活性似乎不依赖于这些因子的可变N端。
