Enhancers with cooperative Notch binding sites are more resistant to regulation by the Hairless co-repressor.

Yi Kuang,Brittany Cain,Matthew T Weirauch,Ofri Axelrod,David Sprinzak,Rhett A Kovall,Brian Gebelein,Natanel Eafergan,Ellen K Gagliani,Anna Pyo,Raphael Kopan,Lisa M Gutzwiller,Jon Christopher Aster

doi:10.1371/journal.pgen.1009039

Abstract

Notch signaling controls many developmental processes by regulating gene expression. Notch-dependent enhancers recruit activation complexes consisting of the Notch intracellular domain, the Cbf/Su(H)/Lag1 (CSL) transcription factor (TF), and the Mastermind co-factor via two types of DNA sites: monomeric CSL sites and cooperative dimer sites called Su(H) paired sites (SPS). Intriguingly, the CSL TF can also bind co-repressors to negatively regulate transcription via these same sites. Here, we tested how synthetic enhancers with monomeric CSL sites versus dimeric SPSs bind Drosophila Su(H) complexes in vitro and mediate transcriptional outcomes in vivo. Our findings reveal that while the Su(H)/Hairless co-repressor complex similarly binds SPS and CSL sites in an additive manner, the Notch activation complex binds SPSs, but not CSL sites, in a cooperative manner. Moreover, transgenic reporters with SPSs mediate stronger, more consistent transcription and are more resistant to increased Hairless co-repressor expression compared to reporters with the same number of CSL sites. These findings support a model in which SPS containing enhancers preferentially recruit cooperative Notch activation complexes over Hairless repression complexes to ensure consistent target gene activation.

Highlights

Notch signaling is a highly conserved cell-to-cell communication pathway that conveys information required for proper cellular decisions in many tissues and organs
Cell signaling provides a basic means of communication during development
We selected a 2xCSL sequence with a 17bp spacer (2xCSL17) and a 1xSPS sequence with a 15bp spacer (1xSPS15, Fig 1A), and we examined the specificity of the engineered 2xCSL17 and 1xSPS15 DNA sequences for Su(H) binding (note, 2xCSL17 and 1xSPS15 have the same number of Su(H) binding sites) using two in vitro DNA binding assays: First, we found that purified Su(H) protein binds DNA probes containing the 2xCSL17 and 1xSPS15 sequences, but not probes with point mutations in the Su(H) sites (Fig 1A, 1B and 1C)

Summary

Introduction

Notch signaling is a highly conserved cell-to-cell communication pathway that conveys information required for proper cellular decisions in many tissues and organs. The Notch signaling pathway is used to specify distinct cell fates and thereby plays crucial roles during organogenesis including vasculogenesis [1], hematopoiesis [2], neurogenesis [3,4], and cardiac development [5,6,7]. Notch regulates tissue homeostasis, including epidermal differentiation and maintenance [8], lymphocyte differentiation [9], muscle and bone regeneration [10,11,12], and angiogenesis [1]. The NICD/CSL/Mam (NCM) complex recruits the p300 co-activator to activate the expression of Notch target genes required for proper cellular outcomes [13,14]

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Discussion

Conclusion