Androgen Receptor Activity In Normal And Abnormal Human Ovarian Function
Funder
National Health and Medical Research Council
Funding Amount
$416,696.00
Summary
Androgens are hormones normally associated with men, but women also produce androgens and they are essential for normal female health and reproduction. Imbalances in female androgen activity could account for approximately 50% of female infertility, but exactly how androgens behave in women is not well understood. Making too much androgen is the most common hormonal problem experienced by women in their reproductive years, and it affects the ovary in a way that can cause infertility. Women with ....Androgens are hormones normally associated with men, but women also produce androgens and they are essential for normal female health and reproduction. Imbalances in female androgen activity could account for approximately 50% of female infertility, but exactly how androgens behave in women is not well understood. Making too much androgen is the most common hormonal problem experienced by women in their reproductive years, and it affects the ovary in a way that can cause infertility. Women with this problem have polycystic ovary syndrome (PCOS). Gaining weight increases the chance of having problems with fertility and increases the risk of diabetes and heart problems in women with PCOS. The cause of PCOS is unknown, but it can occur in families, which indicates that some genetic factor is involved. On the other hand, the concept that some women do not produce enough androgen is only beginning to emerge and remains a controversial topic among medical experts. Part of the problem with this notion is that normal female androgen levels are very difficult to measure accurately, so no one can say for certain how much is too little. A recent scientific study in female mice indicates that poor androgen action causes infertility early in life because the ovary is ageing too quickly. A similar thing could possibly occur in women, but this has never been scientifically explored. However, we have some early evidence that shows abnormally low androgen levels in infertile women with signs of early aging in the ovary. Our study aims to understand the role that androgens play in normal and abnormal ovarian function. A large part of this study involves investigation of the androgen receptor, a molecule that controls what androgens can do inside body organs. We think that abnormal activity of this receptor will be involved in ovarian diseases that cause infertility in women. This understanding may lead to new means of diagnosing and treating infertility in women.Read moreRead less
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
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.
RNA Binding Protein Musashi: Role In Folliculogenesis And Oocyte Development
Funder
National Health and Medical Research Council
Funding Amount
$419,223.00
Summary
Women in Australian have opted for social and economic reasons to delay both marriage and childbirth. Both infertility and congenital abnormality is associated with advancing maternal age as the ovarian pool of oocytes declines in number and quality. In this project we aim to gain an understanding of the molecular mechanisms underpinning healthy oocyte development. Insights gained have the potential to alleviate miscarriage, infertility and congenital abnormalities in Australian families.
Xenobiotics - Oxidative Stress In The Mammalian Ovary
Funder
National Health and Medical Research Council
Funding Amount
$377,922.00
Summary
Synthetic chemicals called xenobiotics in the environment are capable of interfering with female fertility. Xenobiotics can trigger oocyte depletion of the ovary and infertility. Exhaustion of the oocyte population results in the menopause, loss of ovarian hormones and profoundly affects female health through increasing susceptibility to heart and bone disease. This research will characterise xenobiotic effects on the ovary and will lead to significant advances in reproductive healthcare.
Discriminating The Roles Of Inhibin A And B In Reproductive Systems
Funder
National Health and Medical Research Council
Funding Amount
$312,576.00
Summary
Inhibin A and B are essential for the regulation of fertility based on their dual inhibitory actions on follicle stimulating hormone secretion by the pituitary and egg and sperm production in the gonads. An understanding of the mechanisms involved in inhibin A and B actions will: (1) identify novel biomarkers for the diagnosis of reproductive disorders (2) enhance the management of reproductive disorders (3) identify targets for the development of therapeutic means of modulating fertility
Why We Have Two Estrogen Receptors: The Role Of ERbeta In Folliculogenesis.
Funder
National Health and Medical Research Council
Funding Amount
$576,053.00
Summary
The female hormone estrogen acts via receptors ERalpha and ERbeta. Little is known about the genes and proteins regulated by ERbeta. Ovarian granulosa cells and granulosa cell tumours express ERbeta. By studying the biology of normal and malignant granulosa cells we hope to understand the role that ERbeta plays in granulosa cells. These studies will identify areas for the development of new therapeutics or treatment strategies for a range of female-specific conditions including ovarian cancer.
Follicle-stimulating hormone (FSH) is vital for egg development, female fertility and health, and is widely used in assisted reproduction technology. But high levels of FSH are associated with premature infertility and menopause, and may lead to diseases like ovarian cancer. Understanding the biological pathways activated by elevated FSH may lead to new treatments for infertility and ovarian diseases (eg. cancer), as well as advancing new strategies for contraception.
Hormonal Influences In The Pathogenesis Of Ovarian Tumours
Funder
National Health and Medical Research Council
Funding Amount
$264,601.00
Summary
Ovarian cancer is one of the most common malignancies affecting the female reproductive system. We have found that two types of tumour of the ovary produce a hormone called inhibin; these tumours are also known to produce the steroid hormone estrogen. In these studies we are seeking to determine the genetic changes in the tumours that cause the production of these hormones. We suspect that these genetic changes are also the same changes which contribute to the development of the cancers. In orde ....Ovarian cancer is one of the most common malignancies affecting the female reproductive system. We have found that two types of tumour of the ovary produce a hormone called inhibin; these tumours are also known to produce the steroid hormone estrogen. In these studies we are seeking to determine the genetic changes in the tumours that cause the production of these hormones. We suspect that these genetic changes are also the same changes which contribute to the development of the cancers. In order to identify these genes we will draw on our knowledge of the genes that are important in the controlof growth and hormone secretion in normal ovarian cells. To assist this molecular analysis we will use two ovarian cell lines in culture that have many of the features of the primary tumours including inhibin secretion. We will also use new techniques to scan over 500 genes involved in tumours in general to see whether we detect any unusual or distinctive patterns in this sub-group of tumours. A genome wide scanning technique will be used to seek changes in the DNA of the tumours, inparticular loss of genetic material or amplification of regions. Identification of the genetic changes within these tumours should enable better systems of classification, enhance prognostication and provide specific targets for the development of appropriate treatment strategies.Read moreRead less