Optimising Female Fertility: Controlling Ovulation And Promoting Embryo Developmental Potential
Funder
National Health and Medical Research Council
Funding Amount
$459,270.00
Summary
A good quality egg at the right time is required to make a healthy embryo, influencing its lifetime health trajectory. My research aims to determine how the female ovary produces a good quality egg and releases it at the right time. This is essential for improving reproductive health in women and will identify how maternal health influences egg quality and the earliest stages of embryo growth, providing the healthiest start to life.
Disorders of sexual development are among the most common form of birth defects in humans (1 in 4,000 births) because failure of the gonads to develop does not affect the viability of the individual. Such disorders can have profound psychological and medical consequences upon the individual, family, and society. Some intersexual conditions are the result of inappropriate exposure to hormones during fetal life, and others are due to spontaneous or inherited gene mutation. About 5-10% of ovarian c ....Disorders of sexual development are among the most common form of birth defects in humans (1 in 4,000 births) because failure of the gonads to develop does not affect the viability of the individual. Such disorders can have profound psychological and medical consequences upon the individual, family, and society. Some intersexual conditions are the result of inappropriate exposure to hormones during fetal life, and others are due to spontaneous or inherited gene mutation. About 5-10% of ovarian cancer cases, that affect 1 in 8000 Australian women, are due to the inheritance of a faulty gene. An understanding of the way gene expression and hence tissue differentiation is altered after sex reversal will inform us about the causes and consequences of normal and abnormal sexual development, gonadal malignancies and infertility. The gonad is unusual in that two completely different organs can arise from an essentially identical primordium, so that errors in development lead to intersexual phenotypes. We will use our new experimental animal model to clarify these processes.Read moreRead less
Testis To Ovary: Hormonal Control Of Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$803,379.00
Summary
We know very little of the genes that control development of the ovary in female fetuses; most study has focused on the formation of the testis in males. We will use a novel experimental model, a marsupial, where by hormonal treatment of developing males we can switch off testis formation and activate the ovarian pathway. These studies will potentially shed new light on the causes of reproductive diseases including ovarian cancer, as well as clarifying the basic biological processes that guide f ....We know very little of the genes that control development of the ovary in female fetuses; most study has focused on the formation of the testis in males. We will use a novel experimental model, a marsupial, where by hormonal treatment of developing males we can switch off testis formation and activate the ovarian pathway. These studies will potentially shed new light on the causes of reproductive diseases including ovarian cancer, as well as clarifying the basic biological processes that guide formation of the ovary.Read moreRead less
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
I am a reproductive physiologist investigating the nature and actions of hormones, particularly steroids and transforming growth factor-? superfamily members, regulating follicle growth and oocyte quality in the ovary, implantation and breakthrough bleedi
This study is aiming to develop an unique mouse model in which to study the question whether testosterone plays an essential role in female reproductive and general health. It will develop a genetic mouse model for a biological state of complete resistance to the effects of androgens. Such mice and humans are well known among genetic males but this cannot occur naturally among genetic female mammals. By creating such a mouse line, this project will be able to test for the first time indetail whe ....This study is aiming to develop an unique mouse model in which to study the question whether testosterone plays an essential role in female reproductive and general health. It will develop a genetic mouse model for a biological state of complete resistance to the effects of androgens. Such mice and humans are well known among genetic males but this cannot occur naturally among genetic female mammals. By creating such a mouse line, this project will be able to test for the first time indetail whether testosterone has an impotant role in the development and function of the ovary and of other female tissues such as bone, muscle and the brain.Read moreRead less
The Function Of Gametogenenin In Male Fertility And Embryogenesis
Funder
National Health and Medical Research Council
Funding Amount
$537,579.00
Summary
We have identified gametogenetin as novel protein involved in sperm production and in the very earliest stages of embryo survival. It is found within the sperm tail where it binds to cysteine-rich secretory protein 2. The aim of this project is to further refine the biochemistry of GGN using a combination of binding studies, expression analyses and the characterization of two unique mouse models. This project has direct relevance to the causes of human infertility and contraceptive development.
Women are born with a limited supply of eggs and are unable to make new eggs after birth. Because of this, the number and health of eggs established within the ovary early in life influence the length of time for which a female will be fertile, her age at menopause, and the health of her offspring. This project aims to shed some light on the mechanisms that control egg supply and reproductive longevity in women by investigating the role of the cell death protein Bid within the ovary.
Androgen Receptor Mechanims In Female Reproductive Physiology
Funder
National Health and Medical Research Council
Funding Amount
$539,773.00
Summary
Infertility occurs in one in six Australian couples with 50% attributable to females, thus, enhancing our understanding of ovarian and uterine function is of great importance. This project tests the proposal that androgens (steroid hormones) play a major role in regulating female reproductive physiology through their interaction with the androgen receptor. We have developed novel mouse models which we will use to determine the roles of androgens in regulating female reproductive function.
I am a basic scientist with an interest in the cellular biology of the ovary, and the roles of the matrix between cells of the ovary in controlling fertility and hormone synthesis.