Metabolomics,Unknown,Transcriptomics,Genomics,Proteomics

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A unique chromatin signature uncovers early developmental enhancers in humans

ABSTRACT: Cell fate transitions involve integration of genomic information encoded by regulatory elements, such as enhancers, with the cellular environment. However, identification of the genomic sequences that control the earliest steps of human embryonic development represents a formidable challenge. Here we show that in human embryonic stem cells (hESCs) unique chromatin signatures identify two distinct classes of genomic elements, both of which are marked by the presence of chromatin regulators p300 and BRG1, and monomethylation of histone H3 at lysine 4 (H3K4me1). In addition, the elements of the first class are distinguished by the acetylation of histone H3 at lysine 27 (H3K27ac), overlap with previously characterized enhancers active in hESCs, and are generally located proximally to genes expressed in hESCs and in the epiblast. In contrast, the elements within the second class, which we termed M-bM-^@M-^\poised enhancersM-bM-^@M-^], are distinguished by the absence of H3K27ac, enrichment of histone H3 lysine 27 trimethylation (H3K27me3) and are linked to genes inactive in hESCs and involved in orchestrating early steps in mammalian development, such as gastrulation, mesoderm formation and neurulation. Consistent with the poised identity, during differentiation of hESCs to neuroepithelium, a neuroectoderm-specific subset of these elements acquires a chromatin signature associated with active enhancers. Remarkably, when assayed in zebrafish embryos, human poised enhancer elements are able to direct cell type and stage specific expression patterns characteristic of their proximal developmental gene, even in the absence of sequence conservation in the fish genome. Our data demonstrate that enhancers are epigenetically pre-marked and suggest a heretofore unappreciated role of H3K27me3 at distal regulatory elements. Moreover, the unique chromatin signature associated with poised enhancers allowed us to uncover over 2,000 putative developmental regulatory sequences, thereby creating an invaluable resource for future studies and isolation of transient, rare cell populations representing early steps of human development. For GSM602289-90: RNA-seq experiments in human ESC and neuroectodermal (NEC) speheres For GSM602291-303: Genome-wide analysis of p300, H3K4me3, H3K4me1, H3K27me3 and H3K27ac in human embryonic stem cells (ESC) and neuroectoderm cells (NEC). Additionally, in H9 ESC ChIP-seq were alsoe obtained for BRG1 and FAIRE-seq was also performed.

ORGANISM(S): Homo sapiens

SUBMITTER: Alvaro Rada

PROVIDER: E-GEOD-24447 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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A unique chromatin signature uncovers early developmental enhancers in humans.

Rada-Iglesias Alvaro A Bajpai Ruchi R Swigut Tomek T Brugmann Samantha A SA Flynn Ryan A RA Wysocka Joanna J

Nature 20101215 7333

Cell-fate transitions involve the integration of genomic information encoded by regulatory elements, such as enhancers, with the cellular environment. However, identification of genomic sequences that control human embryonic development represents a formidable challenge. Here we show that in human embryonic stem cells (hESCs), unique chromatin signatures identify two distinct classes of genomic elements, both of which are marked by the presence of chromatin regulators p300 and BRG1, monomethylat ...[more]

PMID: 21160473

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Project description:Genome-wide association studies (GWAS) have revolutionized the field of cancer genetics, but the causal links between increased genetic risk and onset/progression of disease processes remain to be identified. Here we report the first step in such an endeavor for prostate cancer. We provide a comprehensive annotation of the 77 known risk loci, based upon highly correlated variants in biologically relevant chromatin annotations- we identified 727 such potentially functional SNPs. We also provide a detailed account of possible protein disruption, microRNA target sequence disruption and regulatory response element disruption of all correlated SNPs at r^2≥0.5. Greater than 88% of the 727 SNPs fall within putative enhancers, many of which alter critical residues in the response elements of transcription factors known to be involved in prostate biology. We define as risk enhancers those regions with enhancer chromatin biofeatures in prostate-derived cell lines with prostate-cancer correlated SNPs. To aid in the identification of these enhancers, we performed genomewide ChIP-seq for H3K27-acetylation, a mark of actively engaged enhancer regions, as well as the transcription factor TCF7L2. We analyzed in depth three variants in risk enhancers, two of which show significantly altered androgen sensitivity in LNCaP cells. This includes rs4907792, that is in linkage disequilibrium (r^2=0.91) with an eQTL for NUDT11 (on the X chromosome) in prostate tissue, and rs10486567, the index SNP in intron 3 of the JAZF1 gene on chromosome 7. Rs4907792 is within a critical residue of a strong consensus androgen response element that is interrupted in the protective allele, resulting in a 56% decrease in its androgen sensitivity, whereas rs10486567 affects both NKX3-1 and FOXA-AR motifs where the risk allele results in a 39% increase in basal activity and a 28% fold-increase in androgen stimulated enhancer activity. Identification of such enhancer variants and their potential target genes represents a preliminary step in connecting risk to disease process. ChIP-seq analysis of H3K27Ac in LNCaP charcoal-stripped serum, H3K27Ac in LNCaP charcoal-stripped serum +DHT, TCF7L2 in LNCaP

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A unique chromatin signature uncovers early developmental enhancers in humans

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A unique chromatin signature uncovers early developmental enhancers in humans.

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