Chen X, Weisberg E, Fridmacher V, Watanabe M, Naco G, Whitman M
Department of Cell Biology, Harvard Medical School, Boston, Massachusetts 02115-5730, USA.
Nature. 1997 Sep 4;389(6646):85-9. doi: 10.1038/38008.
Members of the TGF-beta superfamily of signalling molecules work by activating transmembrane receptors with phosphorylating activity (serine-threonine kinase receptors); these in turn phosphorylate and activate SMADs, a class of signal transducers. Activins are growth factors that act primarily through Smad2, possibly in partnership with Smad4, which forms heteromeric complexes with different ligand-specific SMADs after activation. In frog embryos, Smad2 participates in an activin-responsive factor (ARF), which then binds to a promoter element of the Mix.2 gene. The principal DNA-binding component of ARF is FAST-1, a transcription factor with a novel winged-helix structure. We now report that Smad4 is present in ARF, and that FAST-1, Smad4 and Smad2 co-immunoprecipitate in a ligand-regulated fashion. We have mapped the site of interaction between FAST-1 and Smad2/Smad4 to a novel carboxy-terminal domain of FAST-1, and find that overexpression of this domain specifically inhibits activin signalling. In a yeast two-hybrid assay, the FAST-1 carboxy terminus interacts with Smad2 but not Smad4. Deletion mutants of the FAST-1 carboxy terminus that still participate in ligand-regulated Smad2 binding no longer associated with Smad4 or ARF. These results indicate that Smad4 stabilizes a ligand-stimulated Smad2-FAST-1 complex as an active DNA-binding factor.
转化生长因子-β 信号分子超家族的成员通过激活具有磷酸化活性的跨膜受体(丝氨酸 - 苏氨酸激酶受体)发挥作用;这些受体进而磷酸化并激活SMADs,一类信号转导分子。激活素是主要通过Smad2起作用的生长因子,可能与Smad4协同作用,Smad4在激活后与不同的配体特异性SMADs形成异源复合物。在蛙胚胎中,Smad2参与一种激活素反应因子(ARF),该因子随后与Mix.2基因的启动子元件结合。ARF的主要DNA结合成分是FAST-1,一种具有新型翼状螺旋结构的转录因子。我们现在报告Smad4存在于ARF中,并且FAST-1、Smad4和Smad2以配体调节的方式共同免疫沉淀。我们已经将FAST-1与Smad2/Smad4之间的相互作用位点定位到FAST-1的一个新的羧基末端结构域,并发现该结构域的过表达特异性抑制激活素信号传导。在酵母双杂交试验中,FAST-1羧基末端与Smad2相互作用,但不与Smad4相互作用。仍然参与配体调节的Smad2结合的FAST-1羧基末端缺失突变体不再与Smad4或ARF相关联。这些结果表明,Smad4作为一种活性DNA结合因子稳定配体刺激的Smad2-FAST-1复合物。
