The Role Of Placental Transcription Factors In The Pathogenesis Of Fetal Growth Restriction
Funder
National Health and Medical Research Council
Funding Amount
$601,582.00
Summary
We must understand the role of growth control genes in the growth of the human placenta. The reason is that in several significant placental disorders, placental formation is abnormal and prevents the placenta from functioning efficiently. This in turn, impacts on the growth of the developning fetus. A variety of established and innovative methods described in this project will determine the functions of the placental growth control genes and may lead to novel therapeutic targets.
I am a reproductive biologist - reproductive immunologist investigating the role of the female immune response and its cellular and molecular agents in establishing pregnancy. My research spans basic science and clinical and commercial transfer, and aims to improve our understanding of the factors determining optimal reproductive health in women leading to better treatments for infertility and pathologies of pregnancy, and the best possible health outcomes for babies and children.
Infertility remains a devastating disease for many couples, despite the success of IVF, as treatment is often unsuccessful, or remains out-of-reach for both health and/or financial reasons. My fellowship aims to improve our understanding of some of the causes of infertility in women. This will translate to a new infertility treatment that is safer for their health and provides for improved long-term health outcomes for their children.
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
Prevention Of Placental Oxidative Stress And Inflammation By Dietary Omega-3 Fatty Acids
Funder
National Health and Medical Research Council
Funding Amount
$547,970.00
Summary
Several pregnancy disorders that result in low birthweight involve aberrant function of the placenta. In this project we will examine one of the key mechanisms underlying placental dysfunction, namely oxidative stress, and determine whether its adverse effects can be limited by supplementation with dietary omega 3 fatty acids. The outcomes of this project will help guide future clinical studies on the possible beneficial effects of omega-3 fatty acids in pregnancy.
Function Of A Novel Interferon In Reproductiona And Development
Funder
National Health and Medical Research Council
Funding Amount
$507,270.00
Summary
It is important to understand the factors responsible for maintaining fertility, pregnancy and to prevent infection of the developing fetus and the uterus. The latter is an important general problem in women. We have identified a new protein that our current evidence suggests is involved in reproduction, embryonic or fetal development. This new protein is related tot he interferon family of proteins that are best characterised by their important functions in protecting the host from viral infect ....It is important to understand the factors responsible for maintaining fertility, pregnancy and to prevent infection of the developing fetus and the uterus. The latter is an important general problem in women. We have identified a new protein that our current evidence suggests is involved in reproduction, embryonic or fetal development. This new protein is related tot he interferon family of proteins that are best characterised by their important functions in protecting the host from viral infections and cancer. We propose to undetake a detailed study to determine when and where the new interferon is produced in the reproductive tract and during pregnancy and its importance in the maintenance of pregnancy and in protection against fetal-uterine infection.Read moreRead less
GM-CSF Regulation Of Preimplantation Embryo Development
Funder
National Health and Medical Research Council
Funding Amount
$481,320.00
Summary
Treatment of infertility using IVF technology has been enormously successful. However, there are major concerns regarding the high incidence of multiple pregnancies (caused by the transfer of more than one embryo) and the potential adverse health outcome of adults conceived from this technology. Multiple pregnancies place both mother and infant at enormous risks, with increased obstetrics care, prematurity, increased neonatal care and neurological disorders such as cerebral palsy. This can be ov ....Treatment of infertility using IVF technology has been enormously successful. However, there are major concerns regarding the high incidence of multiple pregnancies (caused by the transfer of more than one embryo) and the potential adverse health outcome of adults conceived from this technology. Multiple pregnancies place both mother and infant at enormous risks, with increased obstetrics care, prematurity, increased neonatal care and neurological disorders such as cerebral palsy. This can be overcome simply by the transfer of a single embryo. However, patient and clinical expectations are that single embryo transfer should be achieved with little to no reduction in pregnancy rate, and currently this is not possible because our methods for culturing embryos are inadequate. Studies in animals suggest that laboratory growth of mammalian embryos can lead to small-for-gestational age babies (even when the effect of multiple births is taken into consideration). This backed by recent studies which agree that babies born from IVF are smaller than expected. This might lead to health problems in later life, as smallness at birth is associated with higher risks of cardiovascular disease and diabetes, especially as age progresses beyond 40 years. However, the oldest IVF child is currently 23 years of age. Previously we have shown that a protein growth factor, called granulocyte-macrophage colony-stimulating factor (GM-CSF), found normally in the reproductive tract, has dramatic beneficial effects on human and mouse embryos grown in the laboratory. Furthermore, we have shown in mice that embryo exposure to GM-CSF alleviates the detrimental side effects of in vitro culture on foetal growth and body structure after birth. Our research is now focussed on understanding why this protein is beneficial to embryo growth and to test if we can increase pregnancy rates and produce normal healthy infants from the transfer of single embryos treated with GM-CSF.Read moreRead less