Use this URL to cite or link to this record in EThOS: https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.763866
Title: Defining the transcriptional and epigenetic signature of mouse embryonic stem cells with compromised developmental potency
Author: Schacker, Maria Anna
ISNI:       0000 0004 7653 6098
Awarding Body: University of Cambridge
Current Institution: University of Cambridge
Date of Award: 2019
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Abstract:
Mouse embryonic stem (ES) cells have played a crucial role in studying developmental processes and gene function in vivo. They are extremely useful in the generation of transgenic animals as they can be genetically manipulated and subsequently microinjected into blastocyst stage embryos, where they combine with the inner cell mass and contribute to the developing embryo. Some of the resulting pups are chimaeric, consisting of a mixture of cells derived from the host blastocyst and the injected ES cells. We have identified several ES cell clones arising from gene targeting experiments with an impaired capacity to generate viable chimaeras. When injected into blastocysts, these clones cause embryonic death during mid to late gestation, suggesting that the cells are able to contribute to the embryo but interfere with normal embryonic development. The aim of this work was to identify the underlying changes in the transcriptome, epigenome or cell surface markers that have occurred in these compromised ES cells and to further define the developmental phenotype of the chimaeric embryos. Different stages during development were analysed and whereas there was little difference in embryonic death at gestational day e13.5, there was a significant decrease in embryos surviving to gestational day e17.5. Additionally, severe haemorrhaging was observed in all the dead embryos and small foci of haemorrhaging could also be seen in a number of embryos that were still alive. This was also observed at e13.5, albeit to a less severe extent. Using RNA sequencing to discover differences in the transcriptome between control ES cells and the compromised ES cells, five genes were identified that were downregulated in the compromised cells. Four of these, Gtl2, Rtl1as, Rian and Mirg are all located in the imprinted Dlk1-Dio3 region on chromosome 12 and are normally expressed from the maternal genome. This pattern was also validated in tissues from e17.5 chimaeric embryos. The expression of this locus is to a large extent regulated by a differentially methylated region located approximately 13kb upstream of the Gtl2 promoter, the IG-DMR. Whereas this is usually only methylated on the paternal copy, in the compromised ES cells both the paternal and the maternal copy were fully methylated, likely causing the silencing of Gtl2, Rtl1as, Rian and Mirg. Using the DNA methyltransferase inhibitor 5-azacytidine, expression of Gtl2 could be rescued. Injection of those 5-azacytidine treated cells into blastocysts did partially rescue the embryonic lethal phenotype. Additionally, cell surface markers were analysed in a phenotypic screen using phage display. NGS analysis of the phage outputs indicates that there may be additional differences in cell surface markers between the control and compromised ES cell clones, but their specific details remain to be identified. Overall, we have identified the maternally expressed genes of the Dlk1-Dio3 region as markers that can distinguish between ES cells with normal or compromised developmental potency and propose to include these genes in the pre-blastocyst injection screening routine for experiments involving the production of chimaeras or genetically modified mouse strains.
Supervisor: Colledge, William H. Sponsor: BBSRC ; Medimmune
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.763866  DOI:
Keywords: Embryonic Stem Cells ; Epigenetics ; Transcriptomics ; Embryonic Development ; Mouse Embryonic Stem Cells
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