The Ubx Polycomb response element bypasses an unpaired Fab-8 insulator via cis transvection in Drosophila.

Danfeng Lu,Liping Yang,Guijun Chen,Lingling Li,Erlin Wang,Wei Zhang,Sheryl Smith,Yunshuang Ye,Lei Zhou,Yue Zhang,Jumin Zhou,Vikrant Singh,Deying Yang,Yikang Rong,Zhuoran Li,Yu Xiao,Anton Wutz

doi:10.1371/journal.pone.0199353

Abstract

Chromatin insulators or boundary elements protect genes from regulatory activities from neighboring genes or chromatin domains. In the Drosophila Abdominal-B (Abd-B) locus, the deletion of such elements, such as Frontabdominal-7 (Fab-7) or Fab-8 led to dominant gain of function phenotypes, presumably due to the loss of chromatin barriers. Homologous chromosomes are paired in Drosophila, creating a number of pairing dependent phenomena including transvection, and whether transvection may affect the function of Polycomb response elements (PREs) and thus contribute to the phenotypes are not known. Here, we studied the chromatin barrier activity of Fab-8 and how it is affected by the zygosity of the transgene, and found that Fab-8 is able to block the silencing effect of the Ubx PRE on the DsRed reporter gene in a CTCF binding sites dependent manner. However, the blocking also depends on the zygosity of the transgene in that the barrier activity is present when the transgene is homozygous, but absent when the transgene is heterozygous. To analyze this effect, we performed chromatin immunoprecipitation and quantitative PCR (ChIP-qPCR) experiments on homozygous transgenic embryos, and found that H3K27me3 and H3K9me3 marks are restricted by Fab-8, but they spread beyond Fab-8 into the DsRed gene when the two CTCF binding sites within Fab-8 were mutated. Consistent with this, the mutation reduced H3K4me3 and RNA Pol II binding to the DsRed gene, and consequently, DsRed expression. Importantly, in heterozygous embryos, Fab-8 is unable to prevent the spread of H3K27me3 and H3K9me3 marks from crossing Fab-8 into DsRed, suggesting an insulator bypass. These results suggest that in the Abd-B locus, deletion of the insulator in one copy of the chromosome could lead to the loss of insulator activity on the homologous chromosome, and in other loci where chromosomal deletion created hemizygous regions of the genome, the chromatin barrier could be compromised. This study highlights a role of homologous chromosome pairing in the regulation of gene expression in the Drosophila genome.

Highlights

Eukaryotic genomes are organized by CCCTC-binding factor (CTCF) and other architectural proteins into various functional units and topological domains, where genes and their regulatory information usually reside within these domains [1,2,3]
The chromatin barrier activity of Fab8680 permitted high level expression of DsRed, resulting in intense level of DsRed signal in the adult eyes, but the Fab8680mCTCF mutation resulted in a significant reduction of DsRed signal in the eyes of homozygous transgenic flies (Fig 1B)
This result suggests that CTCF binding to Fab-8 interfered with the spread of Ubx Polycomb response elements (PREs)-mediated silencing, confirming a previous observation [21]

Summary

Introduction

Eukaryotic genomes are organized by CCCTC-binding factor (CTCF) and other architectural proteins into various functional units and topological domains, where genes and their regulatory information usually reside within these domains [1,2,3]. The Drosophila Bithorax complex (BX-C) contains three Hox genes Ultrabithorax (Ubx), abdominal-A (abd-A) and Abdominal-B (Abd-B), and they together determine body segment identity along the anterior-posterior axis. These genes are regulated by parasegment-specific regulatory domains, which are composed of enhancers, and silencers, or Polycomb response elements (PREs), and other types of cis elements [8]. These domains are separated by chromatin boundaries or insulators, such as Frontabdominal (Fab)-7 and Fab-8 in the Abd-B locus [9,10,11,12,13,14,15]. In their endogenous locations, these elements do not appear to interfere with enhancer-promoter interactions, possibly due to the existence of “anti insulator” elements near the Fab-7 and Fab8 [16, 17], and only act as chromatin barriers to prevent the regulatory activities on one side from affecting those of a neighboring domain

Methods

Results

Conclusion