The follicle and its enclosed oocyte share intimate and critical communication that regulates folliculogenesis and produces a mature oocyte. Protein and RNA accumulated in the oocyte during oogenesis control fertilization and direct embryonic development until the embryonic genome activates. Most knowledge of mammalian oocyte biology has been derived from eutherian species. Marsupials deserve more detailed studies because they have a distinct reproductive biology that offers a unique perspective from which to consider mammalian reproduction. The oocyte biology of the tammar wallaby, Macropus eugenii, is the focus of research in this thesis. Cold storage, a simple method for transporting ovarian tissue, was evaluated using histological techniques and follicle culture to assess the structure and function of tammar ovarian tissue. In vitro techniques were used to examine and compare: -folliculogenesis in prepubertal and adult animals, - fertilization of in vivo and in vitro matured oocytes, - and embryo development in follicular and tubal oocytes. / Tammar ovaries were placed in cold storage (PBS at 4?C) for 24 or 48 hours. Necrotic changes were minimal in ovarian follicles after cold storage and preantral follicles isolated from ovarian tissue after cold storage grew by similar amounts as non-stored follicles when cultured for 4 days in vitro. Although the general morphology and growth of follicles are unaffected after cold storage for up to 48 hours, the viability of the oocyte is of prime importance. The next important stages of this study were to develop in vitro techniques for follicle culture and for oocyte maturation and fertilization for future assessment of oocytes after cold storage. / A defined (serum-free) culture system was developed to grow isolated preantral follicles from prepubertal and adult tammars. FSH promoted follicle growth and antrum formation in follicles from prepubertal tammars. Although FSH promoted growth in follicles from adult tammars, other factors present in serum were required for antrum formation. Therefore, once the hypothalmo-pituitary-gonadal axis is mature, hormones and growth factors modify the mechanism of antrum formation. Only follicles that developed an antrum in the presence of serum had granulosa and theca layers that had appropriately differentiated. While FSH stimulates follicle growth in vitro, more complex conditions are required to promote granulosa and theca differentiation. / Intra-cytoplasmic sperm injection (ICSI) was successfully used to compare fertilization of in vivo and in vitro matured oocytes as well as the development of mature oocytes collected from the ovary (surrounded by zona pellucida) or from the oviduct (surrounded by zona pellucida and mucoid coat). In vitro matured oocytes proceeded though the early stages of fertilization (e.g. sperm nuclear decondensation, pronuclear formation), but not syngamy. After sperm injection, in vivo matured oocytes cleaved as far as the 8-cell stage. Oocytes do not lose their ability to fertilize after acquisition of the mucoid coat, since tubal oocytes cleaved as far as the 8-cell stage after sperm injection. Follicular oocytes develop as far as the 5-cell stage after sperm injection, but embryos had a large cleavage cavity that hindered cell-cell contact. While the mucoid coat is not required for cleavage, it is important for appropriate cell-cell interaction and normal early development of the embryo. / This, the most detailed in vitro study of marsupial oocyte biology, has shown that there are many similarities in the biology of marsupial and eutherian oocytes but that the unique biology of marsupials offers a significant perspective on mammalian reproduction. This work also lays the foundation for the effective use of assisted reproductive techniques for conservation of Australia’s unique mammalian fauna.
Identifer | oai:union.ndltd.org:ADTP/245000 |
Creators | Richings, Nadine Maree |
Source Sets | Australiasian Digital Theses Program |
Language | English |
Detected Language | English |
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