Acetylated YY1 regulates Otx2 expression in anterior neuroectoderm at two cis-sites 90 kb apart

The mouse homeobox gene Otx2 plays essential roles at each step and in every tissue during head development. We have previously identified a series of enhancers that are responsible for driving the Otx2 expression in these contexts. Among them the AN enhancer, existing 92 kb 5' upstream, directs Otx2 expression in anterior neuroectoderm (AN) at the headfold stage. Analysis of the enhancer mutant Otx2(DeltaAN/-) indicated that Otx2 expression under the control of this enhancer is essential to the development of AN. This study demonstrates that the AN enhancer is promoter-dependent and regulated by acetylated YY1. YY1 binds to both the AN enhancer and promoter region. YY1 is acetylated in the anterior head, and only acetylated YY1 can bind to the sequence in the enhancer. Moreover, YY1 binding to both of these two sites is essential to Otx2 expression in AN. These YY1 binding sites are highly conserved in AN enhancers in tetrapods, coelacanth and skate, suggesting that establishment of the YY1 regulation coincides with that of OTX2 function in AN development in an ancestral gnathostome.     

YY1's longer DNA-binding motifs

The DNA-binding sites of YY1 located within two newly identified downstream genes of YY1, Peg3 (GGCGCCATnTT) and Xist (CCGCCATnTT), are longer than the known motif of YY1 (CGCCATnTT). Gel shift assays indicated that these DNA-binding sites are previously unnoticed, longer motifs of YY1. Independent DNA-binding motif studies further confirmed that YY1 recognizes a longer sequence (GCCGCCATTTTG) as its consensus motif. This longer motif exhibited higher affinity to the YY1 protein than the known motif. Another DNA-binding motif study was also performed using a protein containing three amino acid substitutions in the first zinc finger unit of YY1, mimicking the zinc finger domain of pho (a drosophila homologue of YY1). The substitutions cause the weakening of DNA-binding specificity at both 5'- and 3'-sides of the longer motif, yielding a much shorter sequence (GCCAT) as a consensus motif. This indicates that the intact first finger unit is required for recognition of the longer motif of YY1. Also, this shortening suggests that the DNA recognition by YY1 is mediated through the concerted, but not modular, contribution by its four zinc finger units.