Danielle Arnaud scite author profile

The extra-embryonic endoderm lineage plays a major role in the nutritive support of the embryo and is required for several inductive events, such as anterior patterning and blood island formation. Blastocyst-derived embryonic stem (ES) and trophoblast stem (TS) cell lines provide good models with which to study the development of the epiblast and trophoblast lineages,respectively. We describe the derivation and characterization of cell lines that are representative of the third lineage of the blastocyst –extra-embryonic endoderm. Extra-embryonic endoderm (XEN) cell lines can be reproducibly derived from mouse blastocysts and passaged without any evidence of senescence. XEN cells express markers typical of extra-embryonic endoderm derivatives, but not those of the epiblast or trophoblast. Chimeras generated by injection of XEN cells into blastocysts showed exclusive contribution to extra-embryonic endoderm cell types. We used female XEN cells to investigate the mechanism of X chromosome inactivation in this lineage. We observed paternally imprinted X-inactivation, consistent with observations in vivo. Based on gene expression analysis, chimera studies and imprinted X-inactivation, XEN cell lines are representative of extra-embryonic endoderm and provide a new cell culture model of an early mammalian lineage.

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Methylation of Histone H3 at Lys-9 Is an Early Mark on the X Chromosome during X Inactivation

Heard¹,

Rougeulle²,

Arnaud³

et al. 2001

Cell

461

339

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Characterization of a murine gene expressed from the inactive X chromosome

Borsani

Tonlorenzi

Simmler

et al. 1991

Nature

511

277

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In mammals, equal dosage of gene products encoded by the X chromosome in male and female cells is achieved by X inactivation. Although X-chromosome inactivation represents the most extensive example known of long range cis gene regulation, the mechanism by which thousands of genes on only one of a pair of identical chromosomes are turned off is poorly understood. We have recently identified a human gene (XIST) exclusively expressed from the inactive X chromosome. Here we report the isolation and characterization of its murine homologue (Xist) which localizes to the mouse X inactivation centre region and is the first murine gene found to be expressed from the inactive X chromosome. Nucleotide sequence analysis indicates that Xist may be associated with a protein product. The similar map positions and expression patterns for Xist in mouse and man suggest that this gene may have a role in X inactivation.

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Evidence for de novo imprinted X-chromosome inactivation independent of meiotic inactivation in mice

Okamoto

Arnaud

Baccon

et al. 2005

Nature

169

159

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In mammals, one of the two X chromosomes is inactivated in females to enable dosage compensation for X-linked gene products. In rodents and marsupials, only the X chromosome of paternal origin (Xp) is silenced during early embryogenesis. This could be due to a carry-over effect of the X chromosome's passage through the male germ line, where it becomes transiently silenced together with the Y chromosome, during meiotic sex chromosome inactivation (MSCI). Here we show that Xist (X inactive specific transcript) transgenes, located on autosomes, do not undergo MSCI in the male germ line of mice and yet can induce imprinted cis-inactivation when paternally inherited, with identical kinetics to the Xp chromosome. This suggests that MSCI is not necessary for imprinted X-chromosome inactivation in mice. We also show that the Xp is transcribed, like autosomes, at zygotic gene activation rather than being 'pre-inactivated'. We propose that expression of the paternal Xist gene at zygotic gene activation is sufficient to trigger cis-inactivation of the X chromosome, or of an autosome carrying a Xist transgene.

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Danielle Arnaud

Imprinted X-inactivation in extra-embryonic endoderm cell lines from mouse blastocysts

Methylation of Histone H3 at Lys-9 Is an Early Mark on the X Chromosome during X Inactivation

Characterization of a murine gene expressed from the inactive X chromosome

Evidence for de novo imprinted X-chromosome inactivation independent of meiotic inactivation in mice

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