Koelzer Stefan, Klein Thomas
Institute for Genetics, University of Cologne, Germany.
Dev Biol. 2006 Jan 1;289(1):77-90. doi: 10.1016/j.ydbio.2005.10.008. Epub 2005 Nov 22.
The transcription factor Suppressor of Hairless (Su(H)) belongs to the CSL transcription factor family, which are the main transcriptional effectors of the Notch-signaling pathway. Su(H) is the only family member in the Drosophila genome and should therefore be the main transcriptional effector of the Notch pathway in this species. Despite this fact, in many developmental situations, the phenotype caused by loss of function of Su(H) is too weak for a factor that is supposed to mediate most or all aspects of Notch signaling. One example is the Su(H) mutant phenotype during the development of the wing, which is weaker in comparison to other genes required for Notch signaling. Another example is the complete absence of a phenotype upon loss of Su(H) function during the formation of the dorsoventral (D/V) compartment boundary, although the Notch pathway is required for this process. Recent work has shown that Su(H)/CBF1 has a second function as a transcriptional repressor, in the absence of the activity of the Notch pathway. As a repressor, Su(H) acts in a complex together with Hairless (H), which acts as a bridge to recruit the co-repressors Groucho and CtBP, and acts in a Notch-independent manner to prevent the transcription of target genes. This raises the possibility that a de-repression of target genes can occur in the case of loss if function of Su(H). Here, we show that the weak phenotype of Su(H) mutants during wing development and the absence of a phenotype during formation of the D/V compartment boundary are caused by the concomitant loss of the Notch-independent repressor function. This loss of the repressor function of Su(H) results in a de-repression of expression of target genes to a different degree in each process. Loss of Su(H) function during wing development results in a transient de-repression of expression of the selector gene vestigial (vg). We show that this residual expression of vg is responsible for the weaker mutant phenotype of Su(H) in the wing. During the formation of the D/V compartment boundary, de-repression of target genes seems to be sufficiently strong, to compensate the loss of Su(H) activity. Thus, de-repression of its target genes obscures the involvement of Su(H) in this process. Furthermore, we provide evidence that Dx does not signal in a Su(H)-independent manner as has been suggested previously.
转录因子无翅抑制因子(Su(H))属于CSL转录因子家族,该家族是Notch信号通路的主要转录效应因子。Su(H)是果蝇基因组中唯一的家族成员,因此应该是该物种中Notch通路的主要转录效应因子。尽管如此,在许多发育情况下,对于一个被认为介导Notch信号传导大部分或所有方面的因子而言,Su(H)功能缺失所导致的表型太弱。一个例子是翅发育过程中的Su(H)突变体表型,与Notch信号传导所需的其他基因相比,该表型较弱。另一个例子是在背腹(D/V)隔室边界形成过程中,Su(H)功能缺失时完全没有表型,尽管该过程需要Notch通路。最近的研究表明,在Notch通路活性缺失的情况下,Su(H)/CBF1具有作为转录抑制因子的第二种功能。作为一种抑制因子,Su(H)与无翅蛋白(H)一起在一个复合物中起作用,无翅蛋白(H)作为桥梁招募共抑制因子Groucho和CtBP,并以Notch非依赖的方式阻止靶基因的转录。这就增加了在Su(H)功能缺失的情况下可能发生靶基因去抑制的可能性。在这里,我们表明,翅发育过程中Su(H)突变体的弱表型以及D/V隔室边界形成过程中无表型是由Notch非依赖的抑制因子功能同时丧失所导致的。Su(H)抑制因子功能的这种丧失导致每个过程中靶基因表达的去抑制程度不同。翅发育过程中Su(H)功能缺失导致选择基因残翅(vg)的表达出现短暂去抑制。我们表明,vg的这种残留表达是Su(H)在翅中较弱突变体表型的原因。在D/V隔室边界形成过程中,靶基因的去抑制似乎足够强,以补偿Su(H)活性的丧失。因此,其靶基因的去抑制掩盖了Su(H)在这个过程中的参与。此外,我们提供证据表明,Dx并不像之前所认为的那样以Su(H)非依赖的方式发出信号。
