Mechanisms Of Negative Feedback Regulation Of GnRH By Testosterone In Males
Funder
National Health and Medical Research Council
Funding Amount
$243,336.00
Summary
This project will improve our knowledge of the hormonal control of reproduction in males. The hormone testosterone, produced by the testes, acts on the brain to control the secretion of a substance called gonadotrophin releasing hormone (GnRH). GnRH acts on a small gland at the base of the brain to cause the production of hormones called gonadotrophins, that are essential for reproduction. These gonadotrophins act on the testes to ensure the production of sperm and other hormones, including test ....This project will improve our knowledge of the hormonal control of reproduction in males. The hormone testosterone, produced by the testes, acts on the brain to control the secretion of a substance called gonadotrophin releasing hormone (GnRH). GnRH acts on a small gland at the base of the brain to cause the production of hormones called gonadotrophins, that are essential for reproduction. These gonadotrophins act on the testes to ensure the production of sperm and other hormones, including testosterone. We plan to determine how testosterone acts on the brain to control GnRH secretion. To do this we will use male sheep and conduct a series of experiments designed to show where in the brain testosterone acts to ultimately affect the nerve cells that produce GnRH. Testosterone and similar compounds are increasingly being used as treatments for infertility, as a male contraception and misused as anabolic steroids. A thorough knowledge of how testosterone acts in the brain is necessary to improve treatments for reproductive disorders and ultimately to improve reproductive health in men.Read moreRead less
Pathways For Estrogen Feedback To Gonadotropin Releasing Hormone Neurons
Funder
National Health and Medical Research Council
Funding Amount
$466,980.00
Summary
Gonadotropin releasing hormone (GnRH) is the brain hormone that drives the reproductive process. In the female, a surge in the secretion of GnRH is the trigger for ovulation. An understanding of the mechanisms that regulate the secretion of GnRH is, therefore, extremely important if we are to decipher abnormalities that lead to infertility. Understanding of the ovulatory process is also important for the development of new (possibly simpler) means of contraception. Our research is intended to pr ....Gonadotropin releasing hormone (GnRH) is the brain hormone that drives the reproductive process. In the female, a surge in the secretion of GnRH is the trigger for ovulation. An understanding of the mechanisms that regulate the secretion of GnRH is, therefore, extremely important if we are to decipher abnormalities that lead to infertility. Understanding of the ovulatory process is also important for the development of new (possibly simpler) means of contraception. Our research is intended to provide a full understanding of the brain circuits that provide input to the GnRH neurons. In particular, we will focus on the microcircuitry in the preoptic area, where GnRH cells are found. In addition to providing a full understanding of the circuits that are primarily involved in regulating GnRH secretion, this work will provide a substrate upon which we can expand knowledge of how factors such as emotion and stress can impact on the reproductive process.Read moreRead less
Hormonal Predictors Of Cardiovascular Outcomes And Mortality In Ageing Men: The Role Of Androgens And The IGF System.
Funder
National Health and Medical Research Council
Funding Amount
$125,035.00
Summary
As men age levels of testosterone and growth hormone fall while ill health increases. We do not know if low hormone levels directly cause heart disease. We will measure testosterone and IGF1, which reflects growth hormone, in 4,200 older men, and relate hormone levels to the future risk of ill health especially heart disease, stroke and large artery blockages. This will clarify whether low hormone levels increase risk of ill health, and the value of studies to test hormone therapy in older men.
Sex Differences In The Mechanisms By Which Stress Inhibits The Secretion And Actions Of GnRH
Funder
National Health and Medical Research Council
Funding Amount
$408,055.00
Summary
It is well known that stress can impair reproduction in humans and animals but it is not understood how this occurs. Consequently there are no therapies available to overcome the detrimental effects of stress on reproduction. Stress can take many forms, such as psychological stress, surgical trauma, strenuous exercise, undernutrition, all of which may inhibit reproduction. We now know that males and females respond differently to stress and we have shown that stress is also likely to have differ ....It is well known that stress can impair reproduction in humans and animals but it is not understood how this occurs. Consequently there are no therapies available to overcome the detrimental effects of stress on reproduction. Stress can take many forms, such as psychological stress, surgical trauma, strenuous exercise, undernutrition, all of which may inhibit reproduction. We now know that males and females respond differently to stress and we have shown that stress is also likely to have different effects on reproduction in males and females. In this project we aim to determine how stress impairs reproduction in males and females. A major effect of stress appears to be to inhibit the secretion of a substance produced by the brain that is necessary for the regulation of reproduction. This substance is called gonadotrophin releasing hormone (GnRH) and it acts on a small gland at the base of the brain to cause the release of hormones that are essential for reproduction in both males and females. It is also possible that stress may inhibit the actions of GnRH. Our research suggests that there may be differences between males and females in the extent to which stress inhibits the secretion of GnRH from the brain and its actions to cause the release of other reproductive hormones. In this project we will determine how stress acts in the brain to affect the secretion and actions of GnRH in males and females. Our research will make a major contribution to our knowledge of the way that stress inhibits reproduction in males and females. This information is essential in order to develop specific remedies to overcome reproductive disorders caused by stress and to improve reproductive health in both sexes.Read moreRead less
The Functional Roles Of ADAMs In The Regulation Of Embryo Implantation.
Funder
National Health and Medical Research Council
Funding Amount
$211,527.00
Summary
The initiation of pregnancy in humans and rodents hinges upon the ability of the embryo to attach to the wall of the uterus and invade into the uterine tissue. This process of embryo implantation is tightly regulated and depends on the secretion of enzymes and regulators of these enzymes. A newly identified family of enzymes which might be important in this process is the ADAMs family. These enzymes have the potential to facilitate both cell attachment and cell invasion and also to activate othe ....The initiation of pregnancy in humans and rodents hinges upon the ability of the embryo to attach to the wall of the uterus and invade into the uterine tissue. This process of embryo implantation is tightly regulated and depends on the secretion of enzymes and regulators of these enzymes. A newly identified family of enzymes which might be important in this process is the ADAMs family. These enzymes have the potential to facilitate both cell attachment and cell invasion and also to activate other enzymes and growth factors. Recent studies in our laboratory have shown the ADAMs to be expressed both at the most invasive time of implantation and when invasion is being down-regulated. This project will examine the role of the ADAMs in embryo implantation facilitating attachment and invasion into the uterus by acting enzymatically on the uterine tissue and by activating other enzymes. It will also determine the role of ADAMs in down-regulating invasion potentially by activating a growth factor, TNF-alpha. Knowledge of this process and particularly its regulation is important for the treatment of pregnancy associated diseases that arise from improper implantation. These include infertility, placenta accreta, choriocarcinoma, miscarriage and pre-eclampsia. Furthermore, an understanding of the regulation of implantation will contribute to the treatment of other conditions associated with cell invasion such as cancer metastasis.Read moreRead less
This project will test the proposal that rising follicle-stimulating hormone (FSH) levels in ageing females directly accelerate reproductive failure and bone loss , major public health issues due to delayed childbearing and our rising ageing population. We have developed a unique mouse model with elevated FSH levels that cause premature female infertility. We will now use this model to determine the direct effects of high FSH upon ovarian and uterine function, as well as bone loss with age.
Reproduction is controlled by the brain through the hormone gonadotropin releasing hormone (GnRH). Leptin from fat acts on the brain to 'inform' GnRH cells of metabolic state; low levels signal lack of energy stores and suppress reproduction. Leptin treatment of lean individuals restores reproductive function, but the mechanism is not clear. Our data implicate the melanocortins as a means of transmitting information on metabolic state to GnRH cells and the project investigates this pathway.
Novel Actions Of Leptin In Implantation And Placental Function
Funder
National Health and Medical Research Council
Funding Amount
$220,500.00
Summary
The establishment, growth and function of the placenta is of critical importance to the successful maintenance and completion of pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes and coordination of hormone signals that regulate fetal growth and development. Among these signals the hormone leptin, which is produced primarily by fat cells and regulates food intake, has been identified as a crucial player in the control of f ....The establishment, growth and function of the placenta is of critical importance to the successful maintenance and completion of pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes and coordination of hormone signals that regulate fetal growth and development. Among these signals the hormone leptin, which is produced primarily by fat cells and regulates food intake, has been identified as a crucial player in the control of fetal growth. In human pregnancy, the placenta becomes an additional major source of leptin, and this is secreted into the mother and the fetus. Recent work in animal models also indicates that the process of implantation, whereby the embryo embeds itself in the lining of the uterus and establishes a placenta, cannot proceed in the absence of leptin. But how leptin exerts these critical effects on the implantation process and placental function is not known. In this study we will explore several potential actions of leptin in the uterus and placenta, and examine whether the leptin signaling system is aberrant in cases where the fetus does not grow normally. Of particular interest is the possible interaction of leptin with another group of important signaling molecules called the peroxisome proliferator-activated receptors, or PPARs. One of these, PPAR-gamma, plays an indispensable role in the establishment of the placenta, particularly in relation to the formation of blood vessels, a process that is also a target for leptin action. Several lines of evidence, most notably in fat cells, suggest that both PPAR-gamma and leptin regulate common aspects of cell function. Such interactions provide us with important clues as to how leptin and the PPARs could work together to promote the optimal establishment, growth and function of the placenta, and these will be explored in this project.Read moreRead less