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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Isolation, characterisation and in vitro potential of oogonial stem cells

Dunlop, Cheryl Elizabeth January 2017 (has links)
The longstanding belief that women are born with a finite ovarian reserve has been debated for over a decade, ever since the discovery, and subsequent isolation, of purported oogonial stem cells (OSCs) from adult mammalian ovaries. This rare cell population has now been reported in the mouse, rat, pig, rhesus macaque monkey and humans and, although a physiological role for the cells has not been proven, they do appear to generate oocytes when cultured in specific environments, resulting in live offspring in rodents. The primary aim of this thesis was to verify independently the existence of OSCs in human ovary and determine whether they could be isolated from a large animal model, the cow. The secondary aim was to investigate the cells’ in vitro potential, both to undergo neo-oogenesis and as a model for germ cell development. Putative bovine and human OSCs were isolated from disaggregated adult ovarian cortex using a previously validated fluorescence-activated cell sorting (FACS)-based technique, with cells sorted for externally expressed DDX4 (VASA). Freshly isolated and cultured cells were characterised by analysing their expression of pluripotency and germline markers, using RT-PCR, immunocytochemistry and Western blotting. The in vitro neo-oogenesis potential of the cells was explored by injecting fluorescently labelled cells into fragments of adult ovarian cortex and by forming aggregated artificial “ovaries” with putative OSCs and fetal ovarian somatic cells. Germ cell model experiments comprised treatment of cultured cells with BMP4 and/or retinoic acid (RA), with subsequent quantitative RT-PCR and immunocytochemistry analysis for downstream BMP4- and RA-response genes, and liposomal-mediated transfection of cells with a DAZL overexpression plasmid to assess their meiosis-related gene response. Scarce populations of putative OSCs were retrieved from 5 human samples (aged 13- 40 years) and 6 bovine samples. The cells were cultured long-term for up to 7 months and demonstrated consistent expression of several pluripotency-associated and germline markers at the mRNA and protein level, including LIN28, NANOG, POU5F1 (OCT4), IFITM3 (fragilis), STELLA, PRDM1 (BLIMP1), and C-KIT, indicating their early germline nature. Investigation of neo-oogenesis potential revealed that putative human OSCs were associated rarely with fetal somatic cells in primordial follicle-like structures, but could not be confirmed to have undergone oogenesis. However, like early germ cells, putative bovine and human OSCs were BMP4 and RA responsive, with both species demonstrating significant upregulation of expression of ID1 and bovine cells exhibiting a significant increase in MSX1, MSX2 and the meiotic marker SYCP3 in response to BMP4 and/or RA treatment. Cells could be successfully transfected to overexpress DAZL; however, no significant downstream gene expression changes were observed. This is the first report of putative bovine OSC isolation and corroborates a previous report showing putative human OSC isolation. Although the expression of both stem cell and germline markers indicates the cells have characteristics of OSCs, their capacity to enter meiosis and form functional oocytes has yet to be determined. Putative bovine OSCs, however, show promise as a novel model for investigating germ cell development. If their potential can be harnessed, then OSCs may have a role in clinical applications, for example in fertility preservation, in the future. Future experiments will examine the neo-oogenesis capabilities of the cells further and explore novel cell delivery systems for clinical use.
2

Investigating the oogenic potential of bovine oogonial stem cells

Grieve, Kelsey Marie January 2017 (has links)
A fixed population of oocytes within primordial follicles, established prior to or just after birth has been firmly believed to support the postnatal mammalian ovary throughout an individual’s reproductive lifespan. However, the identification and isolation of cells from adult mammalian ovaries characterised by the expression of both germ and stem cell markers, suggest the presence of mitotically active cells, termed oogonial stem cells (OSCs) that may have the potential to produce new oocytes in the postnatal mammalian ovary. Putative OSCs have been isolated from adult tissues of several mammalian species, including rodents and humans. Upon reintroduction to the ovarian niche, human and rodent OSCs have generated new oocyte like structures which, at least in rodents, have generated functional oocytes capable of fertilisation and subsequent embryonic development to produce healthy offspring. We hypothesised that OSCs could be isolated from adult bovine ovaries and upon establishment within the appropriate ovarian niche could initiate successful oogenesis. To investigate this hypothesis, we have utilised fluorescently activated cell sorting (FACS) to isolate putative bovine OSCs (bOSCs) and an ovarian aggregate model, in vitro and in vivo to explore the oogenic potential of these cells. Putative bOSCs were successfully isolated by FACS based on the cell surface expression of germ cell marker DDX4 and established in culture. Pluripotency (LIN28 and OCT4) and germ (IFITM3, PRDM1, C-KIT and DAZL) cell associated genes were expressed in putative bOSCs established in culture. However, DDX4 transcripts were not consistently observed throughout bOSC culture. Aggregation of putative bOSCs with neonatal murine ovarian somatic cells to form chimeric ovarian aggregates, cultured in a hanging drop model for 7 days maintained germ cell phenotype, marked by DAZL expression. A subpopulation of putative bOSCs showed a spherical morphology, an increase in cell size and an association with neighbouring cells. Xenotransplantation of chimeric ovarian aggregates to the kidney capsule of immune deficient mice for 21 days generated multi-laminar follicles and structures with morphological similarities to primordial follicles (termed pre-primordial follicle-like structures). RNA Scope was unsuccessful in determining the origin of oocytes within chimeric ovarian aggregates. However, oocytes from pre-antral follicles in chimeric ovarian aggregates (n=6; 60.9± 3.6 μm, mean ± SEM) were significantly (P < 0.0001) larger than murine oocytes (n=38; 34.5± 1 μm, mean ± SEM) aggregated with murine ovarian somatic cells as positive controls, suggesting that these oocytes are undergoing different growth dynamics. This work has shown that putative bOSCs characterised by the expression of pluripotency and germ cell associated genes are present within adult bovine ovarian tissue and can be isolated using FACS and established in culture. These data also suggest that putative bOSCs may have the potential to undergo oogenesis and illustrate the potential use of these cells as a tool to investigate germ cell differentiation.

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