Christophe Huret scite author profile

SummarySex chromosome dosage compensation is essential in most metazoans, but the developmental timing and underlying mechanisms vary significantly, even among placental mammals. Here we identify human-specific mechanisms regulating X chromosome activity in early embryonic development. Single-cell RNA sequencing and imaging revealed co-activation and accumulation of the long noncoding RNAs (lncRNAs) XACT and XIST on active X chromosomes in both early human pre-implantation embryos and naive human embryonic stem cells. In these contexts, the XIST RNA adopts an unusual, highly dispersed organization, which may explain why it does not trigger X chromosome inactivation at this stage. Functional studies in transgenic mouse cells show that XACT influences XIST accumulation in cis. Our findings therefore suggest a mechanism involving antagonistic activity of XIST and XACT in controlling X chromosome activity in early human embryos, and they highlight the contribution of rapidly evolving lncRNAs to species-specific developmental mechanisms.

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XACT, a long noncoding transcript coating the active X chromosome in human pluripotent cells

Vallot

et al. 2013

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X-chromosome inactivation (XCI), the dosage compensation process that equalizes X-linked gene expression between sexes, has mostly been studied in the mouse, where the central role for the non-coding RNA Xist in the initiation and spreading of the process was demonstrated. Although Xist is conserved in humans [1], very little is known concerning its regulation and function in this species. Several lines of evidence moreover suggest that different strategies have been adopted in the human to control XCI as compared to the mouse. In particular, in human pre-implantation development, XIST RNA coats the X chromosome(s) in both male and female embryos without inducing X-chromosome silencing [2]. This indicates that XIST expression and X-inactivation can be uncoupled during human embryogenesis and that other elements likely participate to the control of X chromosome activity in humans.XCI is established early during embryonic development, and embryonic stem cells can be used to decipher the kinetics and the molecular actors of the process. Human female embryonic stem cells (hESC) can be found in different configurations regarding XIST expression: most female hESC have already undergone XCI but tend to spontaneously lose XIST expression [3]. In the course of an RNA-seq analysis of female hESC, we identified an extended and un-annotated transcribed region producing a long unspliced, likely non-coding nuclear RNA. RNA-FISH analysis reveals that this transcript is expressed from, and coats the active X chromosome. We called this transcript XACT, for X-active coating transcript. In female hESC in which XIST is repressed, XACT is expressed from and coats both Xs, and this correlates with significant reactivation of the inactive X chromosome. Expression of XACT appears to be specific for pluripotent cells as its expression decreases during differentiation. Finally, we provide evidence that XACT is not conserved in the mouse.In conclusion, we have identified XACT as the first long ncRNA that coats the active X chromosome in human. Given its expression profile and lack of conservation, it is tempting to speculate that XACT is involved in the peculiar control of XCI initiation in human.

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Christophe Huret

XACT Noncoding RNA Competes with XIST in the Control of X Chromosome Activity during Human Early Development

XACT, a long noncoding transcript coating the active X chromosome in human pluripotent cells

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