Epigenetics Of Human Placental Development And Pregnancy-associated Disease.
Funder
National Health and Medical Research Council
Funding Amount
$85,526.00
Summary
Mounting evidence suggests that epigenetic changes such as DNA methylation during pregnancy may play an important role in adverse pregnancy outcomes and modulation of disease risk later in life. We have identified a range of distinct DNA methylation events in human placental cells that are likely to play a role in both normal human placentation and aspects of placental dysfunction. We believe that disruption of this epigenetic profile contributes to adverse pregnancy outcomes
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.
Focus On The Uterus: Basic And Translational Research Strategies To Address Key Issues In Women’s Health. Fertility, Infertility, Endometrial And Pregnancy Disorders.
Funder
National Health and Medical Research Council
Funding Amount
$1,085,790.00
Summary
My work focuses on the endometrium, the lining of the uterus, into which the embryo implants to establish pregnancy. When the endometrium does not function correctly, the woman is usually infertile. Other disorders of the endometrium include endometriosis, menstrual bleeding problems and cancer. My studies have defined the molecular basis for much endometrial dysfunction. I am now developing non-invasive tests for these problems and rationales for new treatments.
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.