DNase I hypersensitive sites and histone acetylation status in the chicken Ig-beta locus

DT40 knock-out and knock-in studies determine the regions necessary and sufficient for transcription and epigenetic conversion of the chicken Ig-β gene

The chicken Ig-β locus is organized by three cell-type-specific genes and two ubiquitously expressed genes. B-cell-specific DNase I hypersensitive sites (DHS) in that locus, including three present inside the flanking gene, were grouped into six regions and deleted. The deletions decreased Ig-β mRNA content to <0.1% of that of normal DT40 cells and converted epigenetic parameters such as histone modifications, CG methylation and DNase I hypersensitivity into inactive states. Knocked-in DHS regions into knock-out cells reactivated both transcription of the Ig-β gene and epigenetic parameters. Thus, the collaboration of the scattered regulatory regions was essential and sufficient not only for B-cell-specific transcription of the Ig-β gene, but also for the conversion of epigenetic parameters. On the basis of the knock-in studies, we determined the regions involved in the conversion and maintenance of the epigenetic parameters. These scattered regulatory regions were limited in vicinity such as in an intron of the gene, in the intergenic regions and in the introns of a flanking gene.

Activation of the chicken Ig-beta locus by the collaboration of scattered regulatory regions through changes in chromatin structure

A total of 10 B-lymphocyte-specific DNase I hypersensitive sites located in the chicken Ig-β locus were divided into four regions and combinations of deletions of these regions were carried out. A decrease in transcription of the Ig-β gene to <3% was demonstrated in cells with deletions in all four regions. The Ig-β chromatin was resistant to DNase I digestion in these cells. Thus, the collaboration is shown to convert the Ig-β chromatin from the condensed state to a relaxed state. H3 and H4 acetylation decreased to <8% but H3K4 hypermethylation was observed at the Ig-β promoter and exon 3. The collaboration of four regions had virtually no effect on CG hypomethylation in the region upstream the transcriptional start site. Accordingly, neither the DNase I general sensitive state in the Ig-β chromatin nor hyperacetylation of H3 and H4 histones in the promoter proximal region causes H3K4 di-methylation or CG hypomethylation in the promoter. From these analyses, a chromatin situation was found in which both an active state, such as enhanced H3K4 methylation, or CG hypomethylation, and an inactive state, such as DNase I resistance in the Ig-β chromatin or hypoacetylation of H3 and H4 histones in the Ig-β locus, coexist.

Effect of deletion of the DNase I hypersensitive sites on the transcription of chicken Ig-beta gene and on the maintenance of active chromatin state in the Ig-beta locus

The role of DNase I hypersensitive sites (DHSs) in transcription of the B cell-specific Ig-beta gene and in maintenance of active chromatin state in the Ig-beta locus were examined. A total of 10 DHSs were divided into four regions, and each region was deleted separately in chicken B lymphocyte-derived DT40 cells. Deletion of three DHSs located between the Ig-beta promoter and its upstream Na channelgene, resulted in the absence of Ig-beta mRNA. Three regions except the region in the Na channel gene were involved in the transcription of Ig-beta gene. The enhancing activity of DHSs as determined by transient transfection assays did not always correlate with the effect of DHS deletion on the expression level of Ig-beta mRNA. In each deletion, cells contained the same DHSs as observed in the predeletion cells, indicating that deleted DHSs did not participate in the maintenance of DT40-specific DHSs. Enhanced acetylation of H3 and H4 histones at the Ig-beta promoter and at DT40-specific DHSs was observed in cells in which DHSs between the Na channel gene and Ig-beta promoter were deleted; therefore, these DHSs are prerequisite for transcription of the Ig-beta gene but not required for the maintenance of active chromatin state in the Ig-beta locus. Thus, epigenetic factors required for the maintenance of the active chromatin state are suggested to reside in other regions than those deleted in this study.