Cell lineage specific distribution of H3K27 trimethylation accumulation in an in vitro model for human implantation
Cell lineage specific distribution of H3K27 trimethylation accumulation in an in vitro model for human implantation
Female mammals inactivate one of their two X-chromosomes to compensate for the difference in gene-dosage with males that have just one X-chromosome. X-chromosome inactivation is initiated by the expression of the non-coding RNA Xist, which coats the X-chromosome in cis and triggers gene silencing. In early mouse development the paternal X-chromosome is initially inactivated in all cells of cleavage stage embryos (imprinted X-inactivation) followed by reactivation of the inactivated paternal X-chromosome exclusively in the epiblast precursors of blastocysts, resulting temporarily in the presence of two active X-chromosomes in this specific lineage. Shortly thereafter, epiblast cells randomly inactivate either the maternal or the paternal X-chromosome. XCI is accompanied by the accumulation of histone 3 lysine 27 trimethylation (H3K27me3) marks on the condensed X-chromosome. It is still poorly understood how XCI is regulated during early human development. Here we have investigated lineage development and the distribution of H3K27me3 foci in human embryos derived from an in-vitro model for human implantation. In this system, embryos are co-cultured on decidualized endometrial stromal cells up to day 8, which allows the culture period to be extended for an additional two days. We demonstrate that after the co-culture period, the inner cell masses have relatively high cell numbers and that the GATA4-positive hypoblast lineage and OCT4-positive epiblast cell lineage in these embryos have segregated. H3K27me3 foci were observed in ~25% of the trophectoderm cells and in ~7.5% of the hypoblast cells, but not in epiblast cells. In contrast with day 8 embryos derived from the co-cultures, foci of H3K27me3 were not observed in embryos at day 5 of development derived from regular IVF-cultures. These findings indicate that the dynamics of H3K27me3 accumulation on the X-chromosome in human development is regulated in a lineage specific fashion.
Teklenburg, Gijs
fa31dd22-a287-4414-b255-177f5a080b03
Weimar, Charlotte H. E.
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Fauser, Bart C. J. M.
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Macklon, Nick
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Geijsen, Niels
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Heijnen, Cobi J.
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Chuva de Sousa Lopez, Susana M.
05491d81-e5b3-49ac-8324-addc6c11e137
Kuijk, Ewart W.
5817b868-fafd-4575-b5a5-7c0c15229331
7 March 2012
Teklenburg, Gijs
fa31dd22-a287-4414-b255-177f5a080b03
Weimar, Charlotte H. E.
88228ba0-23b5-4def-97fe-f8e6c748794f
Fauser, Bart C. J. M.
abfadf09-2977-446c-8fe5-f189bfabbd07
Macklon, Nick
7db1f4fc-a9f6-431f-a1f2-297bb8c9fb7e
Geijsen, Niels
2f53382e-be8e-4dcd-8f29-00151220e418
Heijnen, Cobi J.
7327b3c6-a13d-4569-8a8a-f16dec3d9292
Chuva de Sousa Lopez, Susana M.
05491d81-e5b3-49ac-8324-addc6c11e137
Kuijk, Ewart W.
5817b868-fafd-4575-b5a5-7c0c15229331
Teklenburg, Gijs, Weimar, Charlotte H. E., Fauser, Bart C. J. M., Macklon, Nick, Geijsen, Niels, Heijnen, Cobi J., Chuva de Sousa Lopez, Susana M. and Kuijk, Ewart W.
(2012)
Cell lineage specific distribution of H3K27 trimethylation accumulation in an in vitro model for human implantation.
PLoS ONE.
(doi:10.1371/journal.pone.0032701).
(PMID:22412909)
Abstract
Female mammals inactivate one of their two X-chromosomes to compensate for the difference in gene-dosage with males that have just one X-chromosome. X-chromosome inactivation is initiated by the expression of the non-coding RNA Xist, which coats the X-chromosome in cis and triggers gene silencing. In early mouse development the paternal X-chromosome is initially inactivated in all cells of cleavage stage embryos (imprinted X-inactivation) followed by reactivation of the inactivated paternal X-chromosome exclusively in the epiblast precursors of blastocysts, resulting temporarily in the presence of two active X-chromosomes in this specific lineage. Shortly thereafter, epiblast cells randomly inactivate either the maternal or the paternal X-chromosome. XCI is accompanied by the accumulation of histone 3 lysine 27 trimethylation (H3K27me3) marks on the condensed X-chromosome. It is still poorly understood how XCI is regulated during early human development. Here we have investigated lineage development and the distribution of H3K27me3 foci in human embryos derived from an in-vitro model for human implantation. In this system, embryos are co-cultured on decidualized endometrial stromal cells up to day 8, which allows the culture period to be extended for an additional two days. We demonstrate that after the co-culture period, the inner cell masses have relatively high cell numbers and that the GATA4-positive hypoblast lineage and OCT4-positive epiblast cell lineage in these embryos have segregated. H3K27me3 foci were observed in ~25% of the trophectoderm cells and in ~7.5% of the hypoblast cells, but not in epiblast cells. In contrast with day 8 embryos derived from the co-cultures, foci of H3K27me3 were not observed in embryos at day 5 of development derived from regular IVF-cultures. These findings indicate that the dynamics of H3K27me3 accumulation on the X-chromosome in human development is regulated in a lineage specific fashion.
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Published date: 7 March 2012
Organisations:
Human Development & Health
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Local EPrints ID: 346469
URI: http://eprints.soton.ac.uk/id/eprint/346469
ISSN: 1932-6203
PURE UUID: 1e5a81ac-6869-480e-a45f-ae3247fb1c87
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Date deposited: 04 Jan 2013 14:16
Last modified: 14 Mar 2024 12:37
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Author:
Gijs Teklenburg
Author:
Charlotte H. E. Weimar
Author:
Bart C. J. M. Fauser
Author:
Nick Macklon
Author:
Niels Geijsen
Author:
Cobi J. Heijnen
Author:
Susana M. Chuva de Sousa Lopez
Author:
Ewart W. Kuijk
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