Abstract
Cell fate is determined by the coordinated activity of different pathways, including the conserved Notch pathway. Activation of Notch results in the transcription of Notch targets that are otherwise silenced by repressor complexes. In Drosophila, the repressor complex comprises the transcription factor Suppressor of Hairless (Su(H)) bound to the Notch antagonist Hairless (H) and the general co-repressors Groucho (Gro) and C-terminal binding protein (CtBP). The latter two are shared by different repressors from numerous pathways, raising the possibility that they are rate-limiting. We noted that the overexpression during wing development of H mutants HdNT and HLD compromised in Su(H)-binding induced ectopic veins. On the basis of the role of H as Notch antagonist, overexpression of Su(H)-binding defective H isoforms should be without consequence, implying different mechanisms but repression of Notch signaling activity. Perhaps excess H protein curbs general co-repressor availability. Supporting this model, nearly normal wings developed upon overexpression of H mutant isoforms that bound neither Su(H) nor co-repressor Gro and CtBP. Excessive H protein appeared to sequester general co-repressors, resulting in specific vein defects, indicating their limited availability during wing vein development. In conclusion, interpretation of overexpression phenotypes requires careful consideration of possible dominant negative effects from interception of limiting factors.
Highlights
During development, cell fate is adjusted by inter-cellular communication mediated by several signaling pathways including the Notch pathway
Activation of the Notch pathway by ligand–receptor interaction causes the proteolytic release of the Notch intracellular domain (NICD) that acts as a transcriptional co-activator in the nucleus—together with several additional co-factors, an activator complex is assembled on the Notch target genes driving their transcription
The H protein is characterized by three interactive motifs: the Su(H)-binding domain (SBD) contacts
Summary
Cell fate is adjusted by inter-cellular communication mediated by several signaling pathways including the Notch pathway. There is great interest in the understanding of the molecular mechanisms underlying the regulation of Notch signaling activity, which can be well addressed in the fruit fly Drosophila melanogaster. Activation of the Notch pathway by ligand–receptor interaction causes the proteolytic release of the Notch intracellular domain (NICD) that acts as a transcriptional co-activator in the nucleus—together with several additional co-factors, an activator complex is assembled on the Notch target genes driving their transcription. Central to the activator complex is CSL C-promoter binding factor 1 (CBF1), fly Suppressor of Hairless (Su(H)), and nematode Lin-12 and. Glp-1 phenotype (Lag-1)), a DNA-binding transcription factor that guides the activator complex to. Notch target gene promoters (reviewed in [1,3,4,5]). In Drosophila, CSL is named Suppressor of Hairless
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