Molecular Determinants Of Advanced Disease In Ovarian Granulosa Cell Tumours
Funder
National Health and Medical Research Council
Funding Amount
$612,244.00
Summary
Granulosa cell tumours of the ovary (GCT) represent 5-10% of malignant ovarian cancers. They are distinct from the more common epithelial tumours and although considered to have a much better prognosis, they have a propensity to late recurrence. Recurrent or aggressive GCT have a poor prognosis. These studies will investigate the molecular basis of recurrence and aggressive behaviour in GCT. This will provide both prognostic information and also potential therapeutic targets.
Antioxidant Enzymes Counter Reactive Oxygen Species From Steroidogenic Cytochrome P450 Enzymes In The Ovary To Limit Aneuploidy Of Embryos
Funder
National Health and Medical Research Council
Funding Amount
$536,978.00
Summary
Many birth defects are due to damage sustained by the eggs before ovulation. Aging allows more damage, hence the advice to have babies earlier in life. However, we believe we have identified a source of damage that happens during late development of the follicle in the weeks before ovulation. Proving this will enable us define when an egg is most at risk of damage and to devise strategies to lower the risk.
Manipulating Ovarian Follicle - Oocyte Communication To Control Reproductive Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$567,424.00
Summary
Ovarian follicles provide the environment supporting oocyte (egg) development. Communication between cells of the follicle and oocytes modulate this environment. We discovered new cell surface molecules that receive the signals from the oocyte and we identified a class of drug compounds that can modulate this signalling. This discovery offers a unique potential to therapeutically intervene in this signalling process and both improve infertility therapies and develop new non-steroidal contracepti ....Ovarian follicles provide the environment supporting oocyte (egg) development. Communication between cells of the follicle and oocytes modulate this environment. We discovered new cell surface molecules that receive the signals from the oocyte and we identified a class of drug compounds that can modulate this signalling. This discovery offers a unique potential to therapeutically intervene in this signalling process and both improve infertility therapies and develop new non-steroidal contraceptives.Read moreRead less
Molecular Characterisation Of Steroid Hormone-dependent Diseases Of The Cardiovascular And Reproductive Systems
Funder
National Health and Medical Research Council
Funding Amount
$1,085,790.00
Summary
Peter Fuller is both a molecular and clinical endocrinologist. His research examines steroid hormones in cardiovascular disease and cancer. The hormone aldosterone controls blood pressure and has a significant role in cardiac failure. This work will enable the development of tissue-specific blockers of aldosterone for the treatment of cardiovascular disease. Steroid hormones also have a role in granulosa cell tumours of the ovary and breast cancer; new insights will lead to novel therapeutics.
Studies Of The Dynamic Changes In The Ovarian Follicular Basal Lamina
Funder
National Health and Medical Research Council
Funding Amount
$305,557.00
Summary
In order for the ovary to be able to release eggs and produce hormones such as oestrogen, follicles must grow within the ovary. Each follicle contains one egg and when the follicle is large and filled with fluid it can rupture, releasing the fluid and egg in the process of ovulation. A key part of the structure of the follicle is a non-cellular layer called the basal lamina. This basal lamina encapsulates the inner cells, the egg and the fluid in the follicle. Each women has millions of follicle ....In order for the ovary to be able to release eggs and produce hormones such as oestrogen, follicles must grow within the ovary. Each follicle contains one egg and when the follicle is large and filled with fluid it can rupture, releasing the fluid and egg in the process of ovulation. A key part of the structure of the follicle is a non-cellular layer called the basal lamina. This basal lamina encapsulates the inner cells, the egg and the fluid in the follicle. Each women has millions of follicles prior to her birth, ten of thousands in her reproductive years, and none at the menopause. Since she only ovulates about 500 in her lifetime most follicles die during the process of growing to ovulatory size. This project will examine the follicular basal lamina in order to determine its role during follicle growth and development, and when follicles die. This has important implications for the many women who have polycystic ovarian disease, whose follicles fail to grow to full size. We will be examining these ovaries directly. The research also has importance in the next phase of IVF developments.Read moreRead less
The Formation And Development Of The Ovarian Follicular Membrana Granulosa
Funder
National Health and Medical Research Council
Funding Amount
$351,575.00
Summary
In order for the ovary to be able to release eggs and produce hormones such as oestrogen, follicles must grow within the ovary. Each follicle contains one egg and when the follicle is large and filled with fluid it can rupture, releasing the fluid and egg in the process of ovulation. A key part of the structure of the follicle is a non-cellular layer called the basal lamina. This basal lamina encapsulates the inner cells, the egg and the fluid in the follicle. Each women has millions of follicle ....In order for the ovary to be able to release eggs and produce hormones such as oestrogen, follicles must grow within the ovary. Each follicle contains one egg and when the follicle is large and filled with fluid it can rupture, releasing the fluid and egg in the process of ovulation. A key part of the structure of the follicle is a non-cellular layer called the basal lamina. This basal lamina encapsulates the inner cells, the egg and the fluid in the follicle. Each women has millions of follicles prior to her birth, ten of thousands in her reproductive years, and none at the menopause. Since she only ovulates about 500 in her lifetime most follicles die in the process of growing to ovulatory size. This project will examine the structure of the follicle wall and the cells that make up that wall. How these cells replicate during follicle growth has never been discovered. This research has important implications for the many women who have polycystic ovarian disease, whose follicles fail to grow to full size. We will be examining these ovaries directly. The research also has importance in the next phase of IVF developments.Read moreRead less