The Role Of Oxygen Sensing In The Regulation Of Trophoblast Invasion
Funder
National Health and Medical Research Council
Funding Amount
$404,323.00
Summary
Normal fetal development requires the placenta to successfully invade the mother's uterus so that the baby can be appropriately nourished. It is well known that a failure of normal placental development is associated with two major complications of pregnancy: pre-eclampsia and intrauterine growth restriction. This study is designed to discover whether placental cells have special oxygen sensing mechanisms that help them home in to areas where there is high oxygen.
Understanding Immune Tolerance In Pregnancy To Discover A New Intervention For The Treatment Of Pre-eclampsia
Funder
National Health and Medical Research Council
Funding Amount
$492,202.00
Summary
Pre-eclampsia is a common complication of pregnancy. Women who develop pre-eclampsia experience high blood pressure, swelling and lose protein in the urine. There is no treatment for pre-eclampsia other than delivery of the baby. Pre-eclampsia has risks for the mother and the baby. This research will discover whether generalised inflammation in the mother is a cause of pre-eclampsia and will evaluate the role of a novel treatment for its potential to prevent this life threatening condition.
Oxygen, Oxidative Phosphorylation And Regulation Of Embryo Development.
Funder
National Health and Medical Research Council
Funding Amount
$141,096.00
Summary
There is concern that human infertility treatment requiring the growth of embryos in the laboratory, as applied in human IVF, may cause problems during fetal development or even possibly lead to health problems much later in life as an adult. In particular, many clinics are now growing human embryos outside the body for several days longer (to select the best embryos for transfer) than what occurred a decade ago. This concern is based on the evidence that the environment in which an embryo grows ....There is concern that human infertility treatment requiring the growth of embryos in the laboratory, as applied in human IVF, may cause problems during fetal development or even possibly lead to health problems much later in life as an adult. In particular, many clinics are now growing human embryos outside the body for several days longer (to select the best embryos for transfer) than what occurred a decade ago. This concern is based on the evidence that the environment in which an embryo grows in has an impact on the way in which some genes are switched on and off. Normal on-off switching at appropriate times during early development should lead to healthy offspring. Failure to turn off or on, or inappropriate timing, may lead to consequences that manifest themselves later in development. We believe that oxygen concentration and the activity of mitochondria, the organelles of cells that converts oxygen into energy, are key regulators in turning on and off genes during early embryo development. This is because we have shown that, in embryos of a species that is metabolically similar to the human embryo, oxygen concentration and mitochondria activity need to change as the embryo grows for optimal development in the laboratory. In other mammalian cells, oxygen and mitochondria activity are known to turn on or off several particular genes, known as transcription factors. Transcription factors are genes which regulate other genes. Therefore, transcription factors are good candidates as regulators of early embryo development. The present project aims to determine if factors such as changing oxygen concentration and mitochondria activity during laboratory growth of embryos affects the way in which these transcription factors turn on and off. If we find this is true, the way in which human embryos are grown in the laboratory needs to be examined carefully to minimize the risk of possible long-term consequences to the resulting fetus.Read moreRead less
Novel Roles For Follistatin In Reproductive Biology
Funder
National Health and Medical Research Council
Funding Amount
$630,916.00
Summary
The follistatin protein has important functions throughout the body. Recent studies using mutant mice have identified key roles for follistatin in the development and function of the female reproductive system (ovary, uterus). We will now undertake detailed studies to determine how follistatin regulates these processes. This is relevant to our understanding of the mechanisms causing infection and inflammation in the reproductive tract.
This study aims to determine the extent to which semen is important in initiating the maternal immune response to the fetus and placenta during pregnancy. We postulate that exposure to paternal proteins in sperm and other factors present in the semen may have a cumulative, beneficial effect in 'educating' the female immune system to respond in the correct way to the embryo when pregnancy occurs. To investigate this, the behaviour and movements of white blood cells responding to semen will be stu ....This study aims to determine the extent to which semen is important in initiating the maternal immune response to the fetus and placenta during pregnancy. We postulate that exposure to paternal proteins in sperm and other factors present in the semen may have a cumulative, beneficial effect in 'educating' the female immune system to respond in the correct way to the embryo when pregnancy occurs. To investigate this, the behaviour and movements of white blood cells responding to semen will be studied during the period after mating, in which the uterus prepares for and accommodates to pregnancy. In particular, the study will focus on the roles of a specific chemical messenger substance in semen, called transforming growth factor (TGF)-beta, which triggers the molecular changes leading to maternal immune tolerance. A deeper understanding of these events will have an important impact in human and veterinary medicine where implantation failure is a major cause of reproductive loss and inadequate placental growth poses a threat to the health of the conceptus both in utero and into adult life.Read moreRead less
Risk Of Birth Defects In Children Born Following Infertility Treatment
Funder
National Health and Medical Research Council
Funding Amount
$191,962.00
Summary
The development of assisted reproductive technology (ART) for infertility treatment has advanced at a tremendous pace since late 1970's. The use of ART is becoming increasingly frequent, with Australia having one of the highest rates of use internationally. Over 4,000 births result from ART annually in Australia. At the same time, minimally invasive infertility treatment-ovulation induction and insemination, remains a main option for some infertile couples and also generates several thousand bir ....The development of assisted reproductive technology (ART) for infertility treatment has advanced at a tremendous pace since late 1970's. The use of ART is becoming increasingly frequent, with Australia having one of the highest rates of use internationally. Over 4,000 births result from ART annually in Australia. At the same time, minimally invasive infertility treatment-ovulation induction and insemination, remains a main option for some infertile couples and also generates several thousand births annually. A fundamental concern for those involved in infertility treatment is the health of the children born following the treatment. Evidence from many studies indicates that compared to the general population, ART babies are more likely to be a twin or triplet, have a low birth weight, be born premature, and suffer higher rates of perinatal death and cerebral palsy. These issues are gradually being addressed by transferring a single embryo in a cycle. Of greater concern is the recent reporting by a Western Australian team that the risk of major birth defects is doubled in ART children. This is a highly significant finding that has raised concern in patients and clinicians. It is imperative to verify the findings through replication in a larger study. It is equally important to identify whether the increased risk is due to potentially modifiable treatment factors or patient factors related to their infertility. This innovative study will therefore also separate patient characteristics and type of treatment, and partition the risk attributable to various factors. The health of children from infertility treatments is of fundamental concern and has become an important public health issue. This study will direct future basic research in embryology and clinical services where there is a continual need to balance technical innovation and efficacy with treatment safety. The long-term benefit will be improvement of the health status of Australian families.Read moreRead less
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