Site-Specific Silencing of Regulatory Elements as a Mechanism of X Inactivation

Calabrese, J. Mauro; Sun, Wei; Song, Lingyun; Mugford, Joshua W.; Williams, Lucy H.; Yee, Della; Starmer, Joshua; Mieczkowski, Piotr A.; Crawford, Gregory E.; Magnuson, Terry

doi:10.1016/j.cell.2012.10.037

Cited by 178 publications

(246 citation statements)

References 45 publications

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“…Moreover, although biochemical analysis indicates that Xist and PRC2 directly interact (7,29,30) and it is known that they nucleate together at the Xic (8), whether Xist and PRC2 stay together as they spread along the Xi has not been answered definitively by epigenomic analyses (10,11,15). Additionally, a recent analysis using 3D-SIM with 100-nm resolution suggested that Xist RNA and PRC2 are spatially separated on the Xi, to a degree that called into question the idea that Xist recruits PRC2 to the Xi (20).…”

Section: Resultsmentioning

confidence: 99%

“…The unexpectedly low number of Xist transcripts led us to question how Xist can target PRC2 so broadly to the Xi, resulting in the chromosome-wide enrichment of H3K27me3 as demonstrated by ChIP-seq analysis (11,15) and by conventional microscopic techniques (7,9,12,13,17,28). Moreover, although biochemical analysis indicates that Xist and PRC2 directly interact (7,29,30) and it is known that they nucleate together at the Xic (8), whether Xist and PRC2 stay together as they spread along the Xi has not been answered definitively by epigenomic analyses (10,11,15).…”

Section: Resultsmentioning

confidence: 99%

“…Understanding how silencing factors spread in cis has been advanced by employment of next-generation sequencing techniques. For example, CHART-seq (capture hybridization analysis of RNA targets with deep sequencing) and ChIP-seq analyses have provided a first molecular examination of Xist binding patterns (10,14) and localization dynamics of various chromatin epitopes (11,15) at a population-wide level. Developmental profiling demonstrates that Xist RNA and PRC2 initially localize to broad gene-rich, multimegabase clusters and later spread into intervening gene-poor regions.…”

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confidence: 99%

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The Xist RNA-PRC2 complex at 20-nm resolution reveals a low Xist stoichiometry and suggests a hit-and-run mechanism in mouse cells

Sunwoo

Lee

2015

Proc. Natl. Acad. Sci. U.S.A.

104

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X-chromosome inactivation (XCI) is initiated by the long noncoding RNA Xist, which coats the inactive X (Xi) and targets Polycomb repressive complex 2 (PRC2) in cis. Epigenomic analyses have provided significant insight into Xist binding patterns and chromatin organization of the Xi. However, such epigenomic analyses are limited by averaging of population-wide dynamics and do not inform behavior of single cells. Here we view Xist RNA and the Xi at 20-nm resolution using STochastic Optical Reconstruction Microscopy (STORM) in mouse cells. We observe dynamics at the single-cell level not predicted by epigenomic analysis. Only ∼50 hubs of Xist RNA occur on the Xi in the maintenance phase, corresponding to 50-100 Xist molecules per Xi and contrasting with the chromosome-wide "coat" observed by deep sequencing and conventional microscopy. Likewise, only ∼50 hubs PRC2 are observed. PRC2 and Xist foci are not randomly distributed but showed statistically significant spatial association. Knock-off experiments enable visualization of the dynamics of dissociation and relocalization onto the Xi and support a functional tethering of Xist and PRC2. Our analysis reveals that Xist-PRC2 complexes are less numerous than expected and suggests methylation of nucleosomes in a hit-and-run model.super resolution microscopy | Xist RNA | Polycomb | X inactivation | chromosome X -chromosome inactivation (XCI) silences a whole X chromosome in the early mammalian female embryo and is maintained through life to balance gene dosage between sexes (1-4). Silencing requires the long noncoding Xist RNA (5), which is expressed only from the inactive X (Xi) and is known to "coat" the Xi in cis (6). Biochemical and genetic analyses have shown that expression of Xist RNA initiates XCI by targeting Polycomb repressive complex 2 (PRC2) to a nucleation site located at the X-inactivation center (7-9). Upon leaving the nucleation site, the Xist-PRC2 complex spreads together along the X-chromosome to establish silencing by depositing the repressive trimethylated histone H3-lysine 27 (H3K27me3) mark (9-13). Understanding how silencing factors spread in cis has been advanced by employment of next-generation sequencing techniques. For example, CHART-seq (capture hybridization analysis of RNA targets with deep sequencing) and ChIP-seq analyses have provided a first molecular examination of Xist binding patterns (10,14) and localization dynamics of various chromatin epitopes (11, 15) at a population-wide level. Developmental profiling demonstrates that Xist RNA and PRC2 initially localize to broad gene-rich, multimegabase clusters and later spread into intervening gene-poor regions.Although these epigenomic studies have yielded high-resolution views, they have also been limited by the population averaging of millions of input cells, masking the dynamics and potential variations at the level of single cells or single chromosomes. Although conventional light microscopy has provided critical single-cell perspectives over the past five decades, its resolving powe...

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

See 1 more Smart Citation

The Xist RNA-PRC2 complex at 20-nm resolution reveals a low Xist stoichiometry and suggests a hit-and-run mechanism in mouse cells

Sunwoo

Lee

2015

Proc. Natl. Acad. Sci. U.S.A.

104

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“…Recent work pioneered by studies on X-chromosome inactivation has highlighted a central role for long non-coding RNAs (lncRNAs) in epigenetic silencing and enhancer activation (Calabrese et al 2012). Enhancer RNAs (eRNAs) are a class of lncRNAs with a potential role in the mediation of epigenetic modifications as well as interactions with TFs (Gupta et al 2010, Kogo et al 2011, Calabrese et al 2012.…”

Section: Functional Role Of Non-coding Rna In Nr Signallingmentioning

confidence: 99%

Nuclear receptors and chromatin: an inducible couple

Gadaleta¹,

Magnani²

2013

Journal of Molecular Endocrinology

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The nuclear receptor (NR) family comprises 48 transcription factors (TFs) with essential and diverse roles in development, metabolism and disease. Differently from other TFs, NRs engage with well-defined DNA-regulatory elements, mostly after ligand-induced structural changes. However, NR binding is not stochastic, and only a fraction of the cognate regulatory elements within the genome actively engage with NRs. In this review, we summarize recent advances in the understanding of the interactions between NRs and DNA. We discuss how chromatin accessibility and epigenetic modifications contribute to the recruitment and transactivation of NRs. Lastly, we present novel evidence of the interplay between non-coding RNA and NRs in the mediation of the assembly of the transcriptional machinery.

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“…47 A recent study suggests that the number of mouse escape genes can be higher than previously thought, depending on the cell type. 48 Thus, in females, the number of escape genes (i.e., degree of escape) is variable in each tissue.…”

Section: Chromosome Inactivation Escape Genes In Femalesmentioning

confidence: 99%

The great escape

Sin

Namekawa

2013

Epigenetics

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Epigenetic mechanisms precisely regulate sex chromosome inactivation as well as genes that escape the silencing process. In male germ cells, DNA damage response factor RNF8 establishes active epigenetic modifications on the silent sex chromosomes during meiosis, and activates escape genes during a state of sex chromosome-wide silencing in postmeiotic spermatids. During the course of evolution, the gene content of escape genes in postmeiotic spermatids recently diverged on the sex chromosomes. This evolutionary feature mirrors the epigenetic processes of sex chromosomes in germ cells. In this article, we describe how epigenetic processes have helped to shape the evolution of sex chromosome-linked genes. Furthermore, we compare features of escape genes on sex chromosomes in male germ cells to escape genes located on the single X chromosome silenced during X-inactivation in females, clarifying the distinct evolutionary implications between male and female escape genes.

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Site-Specific Silencing of Regulatory Elements as a Mechanism of X Inactivation

Cited by 178 publications

References 45 publications

The Xist RNA-PRC2 complex at 20-nm resolution reveals a low Xist stoichiometry and suggests a hit-and-run mechanism in mouse cells

The Xist RNA-PRC2 complex at 20-nm resolution reveals a low Xist stoichiometry and suggests a hit-and-run mechanism in mouse cells

Nuclear receptors and chromatin: an inducible couple

The great escape

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