In the loop: promoter–enhancer interactions and bioinformatics

Mora, Antonio M.; Sandve, Geir Kjetil; Gabrielsen, Odd S.; Eskeland, Ragnhild

doi:10.1093/bib/bbv097

Cited by 109 publications

(110 citation statements)

References 165 publications

(210 reference statements)

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“…The observed reduction in CTCF occupancy at 11.2516 (Figure C), accompanied by loss of the 11.2516 interactions with the promoters as shown by 4C‐seq (Figure D), upon deletion of intron 6 is supportive of this role. These data are consistent with the reported mechanisms of looping of enhancers to target promoters at other loci . In summary, the removal of key CREs from chr11p13 did not add clarity to our understanding of its functional genomics.…”

Section: Discussionsupporting

confidence: 84%

Coordinate regulation of ELF5 and EHF at the chr11p13 CF modifier region

Swahn

Ebron

Lamar

et al. 2019

J Cellular Molecular Medi

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E74‐like factor 5 (ELF5) and ETS‐homologous factor (EHF) are epithelial selective ETS family transcription factors (TFs) encoded by genes at chr11p13, a region associated with cystic fibrosis (CF) lung disease severity. EHF controls many key processes in lung epithelial function so its regulatory mechanisms are important. Using CRISPR/Cas9 technology, we removed three key cis‐regulatory elements (CREs) from the chr11p13 region and also activated multiple open chromatin sites with CRISPRa in airway epithelial cells. Deletion of the CREs caused subtle changes in chromatin architecture and site‐specific increases in EHF and ELF5. CRISPRa had most effect on ELF5 transcription. ELF5 levels are low in airway cells but higher in LNCaP (prostate) and T47D (breast) cancer cells. ATAC‐seq in these lines revealed novel peaks of open chromatin at the 5’ end of chr11p13 associated with an expressed ELF5 gene. Furthermore, 4C‐seq assays identified direct interactions between the active ELF5 promoter and sites within the EHF locus, suggesting coordinate regulation between these TFs. ChIP‐seq for ELF5 in T47D cells revealed ELF5 occupancy within EHF introns 1 and 6, and siRNA‐mediated depletion of ELF5 enhanced EHF expression. These results define a new role for ELF5 in lung epithelial biology.

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Section: Discussionsupporting

confidence: 84%

Coordinate regulation of ELF5 and EHF at the chr11p13 CF modifier region

Swahn

Ebron

Lamar

et al. 2019

J Cellular Molecular Medi

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“…They increase its affinity to RNAP II, thereby promoting transcriptional initiation/elongation . Such interactions result in the formation of chromatin loops, (for review, see References 9 and 21‐24) which makes enhancers located remote from their target genes along the linear DNA a particularly challenging target for topographical analyses in the context of the 3D and 4D (space and time) organization in the nucleus.…”

Section: Transcription Regulatory Elementsmentioning

confidence: 97%

Nuclear compartmentalization, dynamics, and function of regulatory DNA sequences

Cremer

2019

Genes Chromosomes & Cancer

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Transcription regulatory elements (TREs) have been extensively studied on the biochemical level with respect to their interactions with transcription factors (TFs), other DNA segments, and larger protein complexes. In this review, we describe concepts and preliminary experimental evidence for positional changes of TREs within a dynamic, functional nuclear architecture. We suggest a multilayered shell‐like chromatin organization of chromatin domain clusters with increasing chromatin compaction levels from the periphery toward the interior with a decondensed transcriptionally active peripheral layer and compact repressed chromatin typically located in the interior. This model organization of nuclear architecture implies a differential accessibility of TFs to targets located in co‐aligned active and inactive nuclear compartments (ANC and INC). It is based on evidence that active, easily accessible chromatin (perichromatin region, PR) lines a network of channels (interchromatin compartment, IC) involved in nuclear import–export functions. The IC and PR constitute the ANC, whereas transcriptionally noncompetent chromatin with higher compactness is part of the likely less accessible INC. Preliminary experimental evidence shows an enrichment of active TREs in the ANC and of inactive TREs in the INC suggesting positional changes of TREs between the ANC and INC depending on changes in their functional state.

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“…Since increasing evidence has emerged for distal enhancers coming into close proximity with promoters via a looping mechanism [50–53] and their interaction is fundamental to the control of transcriptional activity [54], we sought to explore how chromatin interactions might be related to the phenotypic impact of non-coding mutations using iRegNet3D. We classified each pair of non-coding mutations as ‘in the same anchor’ ( n = 3480), ‘across interacting regions’ ( n = 166), ‘across non-interacting regions of the same chromosome’ ( n = 3164) or ‘on different chromosomes’ ( n = 1,128,161) using published 3D chromatin interactome data [26].…”

Section: Resultsmentioning

confidence: 99%

iRegNet3D: three-dimensional integrated regulatory network for the genomic analysis of coding and non-coding disease mutations

et al. 2017

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The mechanistic details of most disease-causing mutations remain poorly explored within the context of regulatory networks. We present a high-resolution three-dimensional integrated regulatory network (iRegNet3D) in the form of a web tool, where we resolve the interfaces of all known transcription factor (TF)-TF, TF-DNA and chromatin-chromatin interactions for the analysis of both coding and non-coding disease-associated mutations to obtain mechanistic insights into their functional impact. Using iRegNet3D, we find that disease-associated mutations may perturb the regulatory network through diverse mechanisms including chromatin looping. iRegNet3D promises to be an indispensable tool in large-scale sequencing and disease association studies.Electronic supplementary materialThe online version of this article (doi:10.1186/s13059-016-1138-2) contains supplementary material, which is available to authorized users.

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In the loop: promoter–enhancer interactions and bioinformatics

Cited by 109 publications

References 165 publications

Coordinate regulation of ELF5 and EHF at the chr11p13 CF modifier region

Coordinate regulation of ELF5 and EHF at the chr11p13 CF modifier region

Nuclear compartmentalization, dynamics, and function of regulatory DNA sequences

iRegNet3D: three-dimensional integrated regulatory network for the genomic analysis of coding and non-coding disease mutations

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