CTCF Controls HOXA Cluster Silencing and Mediates PRC2-Repressive Higher-Order Chromatin Structure in NT2/D1 Cells

Abstract: dHOX cluster genes are activated sequentially in their positional order along the chromosome during vertebrate development. This phenomenon, known as temporal colinearity, depends on transcriptional silencing of 5= HOX genes. Chromatin looping was recently identified as a conserved feature of silent HOX clusters, with CCCTC-binding factor (CTCF) binding sites located at the loop bases. However, the potential contribution of CTCF to HOX cluster silencing and the underlying mechanism have not been established. H… Show more

“…Specifically, in both types of cells, the leader fragment CBSA56/A5P (F8) interacts extensively to the examined DNA fragments throughout the HOXA cluster, including the most CBSs in the cluster and the HOXA1-HOXA4 gene promoter elements, suggesting that this region might be located at the center of higher-order chromatin structure of the HOXA cluster in primary cells. This observation is consistent with our previous results in NT2/D1 cells [18], and suggesting that CBSA56 may be one of the key CBSs for chromatin structure organization of the HOXA cluster. The interactions between CBSA56/A5 promoter and other fragments were also significantly decreased in foreskin than that in fetal lung fibroblasts.…”

“…The ligation frequency of a total of 18 BglII fragments containing the nine predicted CTCF-binding sites (CBSs), HOXA gene promoters or retinoic acid response elements (RAREs) were measured. Five leader fragments were chosen to explore the chromatin interactions between the leader fragments and others, these include three CBSs-containing fragments (CBSA56/A5P F8; CBSA79/A7P F11; CBSA10b/A10bP F14) which exhibited strong interactions with other fragments in our previous work [18], and the two border fragments (RARE1 F1 and CBSA13E2/E3 F18). For the first time, we observed strong interactions between fragments containing CBSs in primary human fibroblasts (Figure 2), suggesting that CTCF and its binding sites may also play a critical structural role in the HOXA cluster organization in primary human fibroblasts.…”

“…The 3C assay was performed as previously described [18]. Briefly, restricted enzyme BglII (NEB, R0144M) was used to digest the 1.7% formaldehyde-cross-linked nuclei from FsF or HLF cells.…”

“…Primer sets used in RT-PCR, chromosome conformation capture (3C) and chromatin immunoprecipitation (ChIP) assays were described previously [18].…”

“…Multiple CTCF binding sites (CBSs) were identified in human HOX clusters, most of which belong to the highly conserved noncoding elements. Our previous work revealed that CTCF functions as a controller of HOXA cluster silencing and mediates polycomb repressive complex 2 (PRC2)-repressive higher-order chromatin structure in NTERA-2 cl.D1 human teratocarcinoma (NT2/D1) cells [18]. Fibroblasts are principal component of human body and have been considered to be very important in wound healing [19] and reprogramming [20].…”

Exploring CTCF and cohesin related chromatin architecture at HOXA gene cluster in primary human fibroblasts

“…Specifically, in both types of cells, the leader fragment CBSA56/A5P (F8) interacts extensively to the examined DNA fragments throughout the HOXA cluster, including the most CBSs in the cluster and the HOXA1-HOXA4 gene promoter elements, suggesting that this region might be located at the center of higher-order chromatin structure of the HOXA cluster in primary cells. This observation is consistent with our previous results in NT2/D1 cells [18], and suggesting that CBSA56 may be one of the key CBSs for chromatin structure organization of the HOXA cluster. The interactions between CBSA56/A5 promoter and other fragments were also significantly decreased in foreskin than that in fetal lung fibroblasts.…”

“…The ligation frequency of a total of 18 BglII fragments containing the nine predicted CTCF-binding sites (CBSs), HOXA gene promoters or retinoic acid response elements (RAREs) were measured. Five leader fragments were chosen to explore the chromatin interactions between the leader fragments and others, these include three CBSs-containing fragments (CBSA56/A5P F8; CBSA79/A7P F11; CBSA10b/A10bP F14) which exhibited strong interactions with other fragments in our previous work [18], and the two border fragments (RARE1 F1 and CBSA13E2/E3 F18). For the first time, we observed strong interactions between fragments containing CBSs in primary human fibroblasts (Figure 2), suggesting that CTCF and its binding sites may also play a critical structural role in the HOXA cluster organization in primary human fibroblasts.…”

“…The 3C assay was performed as previously described [18]. Briefly, restricted enzyme BglII (NEB, R0144M) was used to digest the 1.7% formaldehyde-cross-linked nuclei from FsF or HLF cells.…”

“…Primer sets used in RT-PCR, chromosome conformation capture (3C) and chromatin immunoprecipitation (ChIP) assays were described previously [18].…”

“…Multiple CTCF binding sites (CBSs) were identified in human HOX clusters, most of which belong to the highly conserved noncoding elements. Our previous work revealed that CTCF functions as a controller of HOXA cluster silencing and mediates polycomb repressive complex 2 (PRC2)-repressive higher-order chromatin structure in NTERA-2 cl.D1 human teratocarcinoma (NT2/D1) cells [18]. Fibroblasts are principal component of human body and have been considered to be very important in wound healing [19] and reprogramming [20].…”

Exploring CTCF and cohesin related chromatin architecture at HOXA gene cluster in primary human fibroblasts

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