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Escape from X inactivation is directly modulated by Xist noncoding RNA

Antonia Hauth, Jasper Panten, Emma Kneuss, Christel Picard, Nicolas Servant, Isabell Rall, Yuvia A. Pérez-Rico, Léna Clerquin, Nila H. Servaas, Laura Villacorta, Ferris Jung, Christy Luong, Howard Y. Chang, Judith B. Zaugg, Oliver Stegle, Duncan T. Odom, Édith Heard, Agnese Loda

2025Nature Cell Biology5 citationsDOIOpen Access PDF

Abstract

In placental XX females, one X chromosome is silenced during a narrow developmental time window by X-chromosome inactivation, which is mediated by Xist noncoding RNA. Although most X-linked genes are silenced during X-chromosome inactivation, some genes can escape. Here, by increasing its endogenous level, we show that Xist RNA can silence escapees well beyond early embryogenesis both in vitro, in differentiated cells, as well as in vivo, in mouse pre- and post-implantation embryos. We further demonstrate that Xist RNA plays a role in eliminating topologically associating domain-like structures spanning clusters of escapees, and this is dependent on SPEN. The function of Xist in silencing escapees and eliminating topological domains is initially fully reversible, but sustained Xist upregulation leads to irreversible silencing and CpG island DNA methylation of escapees. Thus, gene activity and three-dimensional topology of the inactive X chromosome are directly controlled by Xist, well beyond an early developmental time window.

Topics & Concepts

XISTX-inactivationBiologyGene silencingLong non-coding RNARNAX chromosomeCell biologyGeneGeneticsDosage compensationDNA methylationNon-coding RNACpG siteRNA interferenceRegulation of gene expressionFunction (biology)ChromosomeDNAMethylationMessenger RNAMolecular biologyTranscription (linguistics)RNA-binding proteinGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesChromosomal and Genetic VariationsDevelopmental Biology and Gene Regulation
Escape from X inactivation is directly modulated by Xist noncoding RNA | Litcius