Why Is Trophoblast Invasion Defective In Human Pregnancies That Develop Pre-eclampsia
Funder
National Health and Medical Research Council
Funding Amount
$504,500.00
Summary
Pre-eclampsia is the most common serious medical disorder of otherwise healthy young pregnant women. Early in pregnancies destined for pre-eclampsia, placental cells (cytotrophoblasts) do not invade deeply enough into maternal blood vessels within the uterus, with resultant low oxygen levels and reduced blood flow from the mother's circulation to placenta. This causes fetal under-nutrition and growth restriction, which if severe, can cause intrauterine death. To prevent this, the baby may need t ....Pre-eclampsia is the most common serious medical disorder of otherwise healthy young pregnant women. Early in pregnancies destined for pre-eclampsia, placental cells (cytotrophoblasts) do not invade deeply enough into maternal blood vessels within the uterus, with resultant low oxygen levels and reduced blood flow from the mother's circulation to placenta. This causes fetal under-nutrition and growth restriction, which if severe, can cause intrauterine death. To prevent this, the baby may need to be delivered prematurely, with grave risks of complications, both short and longterm. Women with pre-elampsia suffer from hypertension, activation of the clotting system, and generalized constriction of blood vessels. Together, these result in damage to blood vessel lining cells, reduced blood flow to, and disturbed function of many organs. Most commonly affected are kidney, liver, brain, and the uterine circulation. Babies born early and-or small-for-gestational-age have an increased incidence of vascular disease, hypertension, diabetes and kidney disease in adult life. Improved understanding, and development of preventive and-or therapeutic strategies for pre-eclampsia are urgently needed. There is no satisfactory animal model to address pathogenesis of this peculiarly human disorder, which concurrently causes significant morbidity in two generations of people. Ethical constraints and the need for urgent therapy limit extensive research in affected pregnant women. With our unique in vitro cell co-culture strategy, we have clarified inter-relationships between fetal-placental cells (cytotrophoblasts) and their host maternal vascular cells (decidual endothelial cells) in the clinical syndrome of pre-eclampsia. Building on this work we will now examine maternal-placental intercellular cooperation in regulation of normal placental development, and explore the defective regulation of placental development that precedes pre-eclampsia.Read moreRead less
The Mechanisms That Regulate The Onset Of Human Labour And Delivery
Funder
National Health and Medical Research Council
Funding Amount
$528,170.00
Summary
Reproductive biologists still cannot explain the molecular mechanisms that govern human birth. This lack of knowledge prevents the development of better moitoring and treament of complications of labour and delivery. If we are to provide the best possible start to life and improve newborn health care delivery then we must: (1) better understand what triggers labour; (2) determine whether there are biomarkers that we can use to identify women at risk of early birth; and (3) identify new ways to d ....Reproductive biologists still cannot explain the molecular mechanisms that govern human birth. This lack of knowledge prevents the development of better moitoring and treament of complications of labour and delivery. If we are to provide the best possible start to life and improve newborn health care delivery then we must: (1) better understand what triggers labour; (2) determine whether there are biomarkers that we can use to identify women at risk of early birth; and (3) identify new ways to delay birth. This is the overall objective of this research project. In particular, this project focuses on how the multiple events needed to achieve a successful outcome to pregnancy are coordinated at the time of birth.Read moreRead less
Uptake of fertility preservation procedures (eg. egg and embryo freezing) prior to cancer treatment is increasing and women will return to use these to try to conceive. Radiation may damage the uterus and there is insufficient evidence to guide the management of those exposed to intermediate doses. The aim is to improve understanding of radiation effects on the uterus which will assist clinicians with deciding whether it can support a pregnancy, or if surrogacy should be advised.
The aim of this project is to determine whether melatonin supplementation has an effect on cumulative pregnancy and delivery rates, allowing for the use of frozen embryos obtained during a melatonin treatment cycle. This will be achieved by a series of experiments designed to investigate the effect of melatonin on follicular fluid and culture media as well as assessing clinical pregnancy rates and delivery rates.
Molecular mechanisms for seminal fluid signalling in reproduction. Male seminal fluid regulation of the female reproductive process influences fertility and fecundity in humans and animal species. Infertility and impaired reproductive function is a major economic constraint in livestock industries, and carries a substantial social and public health cost in humans. This research will identify the active signalling molecules in seminal fluid and quantify their importance in reproductive success ....Molecular mechanisms for seminal fluid signalling in reproduction. Male seminal fluid regulation of the female reproductive process influences fertility and fecundity in humans and animal species. Infertility and impaired reproductive function is a major economic constraint in livestock industries, and carries a substantial social and public health cost in humans. This research will identify the active signalling molecules in seminal fluid and quantify their importance in reproductive success and health of offspring. The outcomes will inform development of new diagnostic assays for male fertility, and underpin strategic design of novel fertility treatments and products with applications in the human health and animal breeding industries. Read moreRead less
Interactions between cells and extracellular matrix in the epithelial-mesenchymal transition of the ovarian follicular stratified epithelium. The lining of many mammalian organs and cavities contain cells that can transform into different cells to bring about organ development or repair but if it goes horribly wrong the cells become metastatic cancers. This project examines the key features of this process especially the roles of matrix that develops around the cells in this process.
Roles Of TGFbeta Receptor TGFBR3 (Betaglycan) In Testis Development
Funder
National Health and Medical Research Council
Funding Amount
$332,660.00
Summary
Diseases of the reproductive tract are major health issues. At lease 1 in 100 live births display some sort of gonadal defects. Later in adulthood, one in six couples are affected by infertility, and cancers of the reproductive tract which result in a significant number of deaths each year. This project focuses on understanding the role of the transformation growth factor beta receptor3 (Tgfbr3) in the embryonic and neonatal testis and its impact on adult male reproductive capacities and health.
The Role Of FSH And FF-MAS In The Induction Of Meiotic Resumption In The Oocyte
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
About one in six couples of reproductive age suffer from reproductive disorders. In a significant proportion of cases, reproductive failure is attributable to a variety of chromosomal and cellular anomalies displayed by the egg, which interfere with the process of fertilization or the capacity of the embryo to grow, implant or develop to term. Because the chances of success of each individual egg are very low, women undergoing IVF therapy are subjected to ovarian stimulation with drugs in order ....About one in six couples of reproductive age suffer from reproductive disorders. In a significant proportion of cases, reproductive failure is attributable to a variety of chromosomal and cellular anomalies displayed by the egg, which interfere with the process of fertilization or the capacity of the embryo to grow, implant or develop to term. Because the chances of success of each individual egg are very low, women undergoing IVF therapy are subjected to ovarian stimulation with drugs in order to produce many eggs, thereby increasing the success rate per treatment cycle. But stimulation of ovarian function involves a number of drawbacks including cost of fertility drugs, continued monitoring, discomfort and risk of complications (eg. ovarian hyperstimulation syndrome). It is evident that novel methods for the production of mature eggs in vitro in the absence of ovarian stimulation would mark a breakthrough, making assisted reproduction a more friendly discipline. In general, all IVF patients would benefit from in vitro maturation techniques. In particular, in selected patients (eg. those suffering from polycystic ovary syndrome) the advantages of this method might prove to be invaluable, by achieving production of fully viable eggs under controlled conditions, as opposed to in vivo where oocytes generally fail to acquire full competence, having been subjected to an unfavourable hormonal environment. Unfortunately, attempts to treat IVF patients using eggs matured in vitro has been disappointing so far, with only occasional pregnancies reported over the last decade. Clearly, this is due to lack of knowledge of the fundamental events occurring during egg maturation, as well as the paucity of biological material available for experimentation. So, to make in vitro maturation of eggs a successful fertility treatment we undoubtedly need to achieve a more profound insight into the function of the egg, the first step being to focus our attention upon experimental models.Read moreRead less
Sperm ciliary gating and midpiece formation – a novel player and process. We have identified CCDC112 an essential player in mammalian sperm tail development and male fertility. This project aims to define the role of CCDC112 in 1) the formation of the core to the sperm tail, the axoneme, and 2) the packaging of mitochondria into the midpiece. Within this Discovery Project we will define the mechanism(s) of CCDC112 functions and the consequences of its dysfunction. Insights from this grant will b ....Sperm ciliary gating and midpiece formation – a novel player and process. We have identified CCDC112 an essential player in mammalian sperm tail development and male fertility. This project aims to define the role of CCDC112 in 1) the formation of the core to the sperm tail, the axoneme, and 2) the packaging of mitochondria into the midpiece. Within this Discovery Project we will define the mechanism(s) of CCDC112 functions and the consequences of its dysfunction. Insights from this grant will be of significance to fertility across mammals and may ultimately benefit the selection of highly fertile males within the agricultural sector.Read moreRead less