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
Cohesin: Role In Germ Cell Chromosomal Segregation
Funder
National Health and Medical Research Council
Funding Amount
$435,526.00
Summary
At least 10 to 25% of all human fetuses have the wrong number of chromosomes (aneuploidy). Most of these abormal fetuses perish in utero, making it the leading known cause of early pregnancy loss. Aneuploidy is the leading genetic cause of developmental disabilities and mental retardation. Abundant evidence suggests that most of these chromosome abnormalities originate during unequal partitioning of genetic material (chromosomes) in eggs and sperm. The proposed project focuses on two related gen ....At least 10 to 25% of all human fetuses have the wrong number of chromosomes (aneuploidy). Most of these abormal fetuses perish in utero, making it the leading known cause of early pregnancy loss. Aneuploidy is the leading genetic cause of developmental disabilities and mental retardation. Abundant evidence suggests that most of these chromosome abnormalities originate during unequal partitioning of genetic material (chromosomes) in eggs and sperm. The proposed project focuses on two related genes, called Rec8 and Rad21, which we recently discovered in humans and mice. Due to that these genes are essential for chromosome separation in other species and they exists in species as diverse as yeast and humans, they may be responsible for accurate separation of chromosomes in germ cells in mammals. In this proposal, we will determine the role(s) of these molecules in controlling proper chromosome segregation by loss-of-function studies in genetically engineered mice lacking Rec8 and Rad21 genes. By analyzing the chromosomal abnormalities of the cells from these animals, we will gain critical information about the nature of chromosome partitioning disorders in humans.Read moreRead less
Understanding The Determinants Of Human Oocyte And Embryo Health
Funder
National Health and Medical Research Council
Funding Amount
$252,761.00
Summary
This project will address key questions involving how the human egg and embryo maintain their ability to develop into a healthy fetus. In recent years there have been significant advances in our understanding of how animal oocytes grow and become competent as well as an increased understanding of how the animal embryo maintains its viability in culture. Currently there is little information as to how the human oocyte and embryo develops. This study will address the current lack of knowledge by e ....This project will address key questions involving how the human egg and embryo maintain their ability to develop into a healthy fetus. In recent years there have been significant advances in our understanding of how animal oocytes grow and become competent as well as an increased understanding of how the animal embryo maintains its viability in culture. Currently there is little information as to how the human oocyte and embryo develops. This study will address the current lack of knowledge by extending the information gathered in animal models to establish how the human oocyte communicates with its surrounding cells and how this communication is important for development. We will also study how the developing embryo maintains its physiology and metabolism and the relationship between the ability to control metabolic balance and viability will be established. All of the questions outlined in this proposal can be performed without disturbing the oocyte and developing embryo by analysing the surrounding cells and the spent media. Therefore, all of these questions can be answered non-invasively. The outcome of this proposal will be an increased understanding of how the physiology and development of the human oocyte and embryo is maintained. However, importantly this data will then provide information as to the relationship of these parameters to developmental competence. Therefore, it will be possible to establish a range of markers that can be used to predict the developmental competence of a human embryo. Currently multiple embryos are routinely transferred in an IVF cycle resulting in an increase in multiple gestation pregnancies and their associated complications. The information generated in this study will provide information enabling markers to be used to identify the most viable embryo from a cohort, which is essential if single embryo transfer is to be universally adopted in an IVF program.Read moreRead less
Metabolic And Molecular Determinants Of Embryo Viability
Funder
National Health and Medical Research Council
Funding Amount
$551,321.00
Summary
We know that our health as adults is influenced by the lifestyle of our mothers during pregnancy. In particular, increased risk of adult-onset diseases such as diabetes and cardiovascular disease occurs when small and lean infants at birth are raised in conditions where nutrient intake is not restricted and obesity occurs. This concept of fetal programming is now widely accepted. Our laboratory is leading research in a new concept, that of embryonic programming. We have extensive animal data dem ....We know that our health as adults is influenced by the lifestyle of our mothers during pregnancy. In particular, increased risk of adult-onset diseases such as diabetes and cardiovascular disease occurs when small and lean infants at birth are raised in conditions where nutrient intake is not restricted and obesity occurs. This concept of fetal programming is now widely accepted. Our laboratory is leading research in a new concept, that of embryonic programming. We have extensive animal data demonstrating that exposure of embryos to physiological perturbations alters fetal development, similarly to that occurring in nutrient restriction during pregnancy. Furthermore, there is data from IVF-derived children that their birth-weight is lower than expected, possibly due to the conditions used for conception in the laboratory. How does the response by eggs and embryos, at the time of conception, affect subsequent development? There has been some focus on changes to DNA that are not related to mutations, but structural changes in the DNA that alters gene expression. We call this epigenetics and epigenetic changes are found in embryos, including human embryos following IVF. However, no one knows how such epigenetic changes occur as a result of this stress response by the egg or embryo. Our proposal is to determine the mechanism of how epigenetic alterations take place in eggs and embryos. Our theory is that the mitochondria, the energy producing packages within all cells, are sending signals to the embryo's nucleus. When the egg or embryo finds itself in adverse conditions, the signals change as a result of changes in the energy balance. This in turn changes the activity of enzymes in the nucleus that regulates DNA structure. If we can prove that this relationship occurs, then we can assess these changes in human embryos that are excess to a patient's requirements and learn if programming takes place in human embryos.Read moreRead less
Identification And Characterisation Of Phosphorylation Events Taking Place During Human Sperm Capacitation
Funder
National Health and Medical Research Council
Funding Amount
$280,400.00
Summary
Male infertility affects one in every twenty Australian males and one third of all infertile couples worldwide. The most common cause of human infertility is not a failure to produce sperm, but a failure of these cells to express a normal capacity for fertilization. The cause of this loss of functional competence is unclear. We are going to use our technical expertise in proteomics to characterize the molecular pathways responsible for the defective sperm function seen in infertile patients.
Cysteine Rich Secretory Proteins (Crisp) Are Ion Channel Regulators With Essential Roles In Male Fertility
Funder
National Health and Medical Research Council
Funding Amount
$531,696.00
Summary
Male infertility affects 1 in 20 Australian men and for the majority of other men, contraception is an issue at some point in their lives. Despite this, relatively little is known about the processes of sperm production and fertilization. As such, there is an urgent need for futher research if we are to hope to develop diagnostics, targeted therapeutics and to take advantage of the growing awareness by pharmaceutical companies of the market for male gamete based contraceptives. The cysteine rich ....Male infertility affects 1 in 20 Australian men and for the majority of other men, contraception is an issue at some point in their lives. Despite this, relatively little is known about the processes of sperm production and fertilization. As such, there is an urgent need for futher research if we are to hope to develop diagnostics, targeted therapeutics and to take advantage of the growing awareness by pharmaceutical companies of the market for male gamete based contraceptives. The cysteine rich secretory proteins (Crisps) are a group of proteins which show a remarkable bias to the male reproductive tract. All four are incorporated into sperm. Recently published data from us indicates that they have the ability to regulated calcium flow in sperm and as such sperm activity. The aim of the current proposal is to explore the biological relevance of one domain of Crisp proteins using animal models, in vitro sperm tests and through an analysis of ion flux and phosphorylation status under conditions of altered Crisp-1 and -2 content. The data generated from this project will make a significant contribution to the development of novel male gamete based contraceptives for use by either men or women. In addition, through the attainment of a greater understanding of sperm development and function, we will be able to more precisely define types of infertility, thus allowing for the development of more targeted therapies. The development of Crisp agonists or antagonists may also be of value in the treatment of other cilia disorders including primary cilia dykinesia and cystic fibrosis.Read moreRead less
Characterisation Of The Pathways Leading To DNA Demethylation In The Embryo.
Funder
National Health and Medical Research Council
Funding Amount
$634,573.00
Summary
Complex living creatures like humans have specialised cells that co-operate to form important organs like brains and reproductive organs. Specialised cells have specific genes locked on or off. When a sperm fertilises an egg, all the switches of the genes that are locked on or off get reset to neutral so that the fertilised egg can divide and grow into all cell types in the body. We do not know how this resetting happens in the egg. This project seeks to discover the mechanism involved.