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ESTABLISHMENT IN CULTURE OF MOUSE AND HUMAN STEM CELLS WITH EXPANDED FATE POTENTIAL


Type

Thesis

Change log

Authors

Abstract

The zygote and blastomeres of cleavage stage mouse embryos have the capacity to differentiate to the embryonic and both extra-embryonic lineages and are considered functionally totipotent. Until now, it has not been possible to establish stable cell lines that resemble these totipotent-like cells. In this work, I hypothesised that by modulating signalling pathways known to be important in early embryonic development it may be possible to capture in vitro a self-renewing state that possessed features of pre-implantation blastomeres. I succeeded in formulating a novel hypothesis driven cell culture medium which allowed the establishment of a stem cell state that possessed expanded differentiation potential to the embryonic and both extra-embryonic lineages in vitro and in vivo. These cells were isolated directly from in vitro culture of mouse pre-implantation embryos or single cell blastomeres, reprogrammed from somatic cells or converted from mouse ES cells. With these cells, I generated single cell chimeras which demonstrated extensive contribution to all lineages in the developing organism providing additional evidence that this chemical medium maintained a homogenous stem cell population. I demonstrated that the transcriptome of these cells was enriched with an early pre-implantation blastomere signature, distinct from other rare published totipotent-like cells. Finally, I demonstrated that the same chemical formulation permitted the establishment in vitro of a human stem cell state that possessed expanded differentiation potential to the embryonic and extra-embryonic lineage in vitro. My work has shown for the first time that through chemical modulation of pathways implicated to be involved in pre-implantation development, a novel homogenous stem cell state that possesses a pre-implantation transcriptional signature and expanded differentiation potential to both the embryonic and extra-embryonic lineage can be established and maintained in vitro in both mouse and human, suggesting a possible interspecies conservation of the signalling networks involved in early embryonic development.

Description

Date

2016-10-19

Advisors

Liu, Pentao
Watts, Colin

Keywords

Expanded Potential Stem Cells, Expanded Potential Stem Cell Medium, Embryonic Stem Cells, Preimplantation Mouse Embryo, Blastomeres, Totipotency

Qualification

Doctor of Philosophy (PhD)

Awarding Institution

University of Cambridge
Sponsorship
Wellcome Trust Clinical PhD Programme for Academic Clinicians