The Role Of Transcription Factors In Regulating The First Round Of Gene Expression In The Early Embryo.
Funder
National Health and Medical Research Council
Funding Amount
$348,931.00
Summary
Assisted reproductive technologies result in a high incidence of multiple births. This is and adverse outcome that requires correction. It stems from the common transfer of several embryos due to the low chance of an individual embryo made by IVF resulting in a baby. This project will determine the normal pattern of gene expression in the embryo and define: (1) how it is adversely changed as a consequence of IVF; and (2) the extent that these changes are a cause of the low embryo viability.
Mechanisms Of P53 Induced Embryopathy After In Vitro Fertilisation.
Funder
National Health and Medical Research Council
Funding Amount
$483,737.00
Summary
Assisted reproductive technologies (ART) cause many embryos not to survive to birth. We have shown that IVF causes increased expression of protein normally involved in stopping cells from dividing. This is a major cause of embryo death after IVF. This project will determine how this protein acts to cause embryonic death and assess strategies to prevent it.
Positional Candidate Targets For Multiple Ovulation Genes
Funder
National Health and Medical Research Council
Funding Amount
$272,036.00
Summary
The frequency of non-identical twins is associated with fertility in individuals and populations, although we know little about mechanisms for twinning or effects on fertility. The likelihood for giving birth to non-identical twins is influenced by genetic factors. The probability of a subsequent twin pregnancy is increased fourfold in mothers of twins and roughly doubled for women whose mother or sister has had non-identical twins. Understanding why some women are more likely to have twins will ....The frequency of non-identical twins is associated with fertility in individuals and populations, although we know little about mechanisms for twinning or effects on fertility. The likelihood for giving birth to non-identical twins is influenced by genetic factors. The probability of a subsequent twin pregnancy is increased fourfold in mothers of twins and roughly doubled for women whose mother or sister has had non-identical twins. Understanding why some women are more likely to have twins will help us find key pathways that control normal ovarian function and important factors that influence success in assisted reproduction. The aim of this project is to search for these genes in families with two sisters who have given birth to non-identical twins. Previous studies have identified one strong target region and two possible regions containing genes for increased twinning. We now have additional families and will examine each region in more detail. We will also look for genes within each region that could be responsible for variation in twin frequency.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
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
A man's reproductive health and fertility is affected by processes that occur long before adulthood. The testis and sperm precursor cells first form in the fetus and then grow until the time of puberty, when the upper limit for sperm production is set. This project studies how one key signaling molecule, activin, helps establish normal testicular architecture and drives maturation of sperm precursor cells, and how it contributes to aberrent function in men with testicular cancer.
Isolation And Function Of Human Oogenesis Genes Regulating Meiosis, Recruitment, Growth And Maturation Of The Oocyte.
Funder
National Health and Medical Research Council
Funding Amount
$211,527.00
Summary
Reproductive medicine has progressed very rapidly with the development of in vitro fertilization (IVF) and has delivered the opportunity for a broad group of infertile couples to form their own families. As a consequence, treatment of infertility by major surgery and artificial insemination with donor sperm have declined and there is an increasing interest in the use of IVF to diagnose severe genetic disease in embryos of families at risk. However, little is known about the underlying processes ....Reproductive medicine has progressed very rapidly with the development of in vitro fertilization (IVF) and has delivered the opportunity for a broad group of infertile couples to form their own families. As a consequence, treatment of infertility by major surgery and artificial insemination with donor sperm have declined and there is an increasing interest in the use of IVF to diagnose severe genetic disease in embryos of families at risk. However, little is known about the underlying processes that form the follicles containing the developing germ cells and the matured oocytes needed for IVF. The cohort of oocytes that can be harvested from any patient depends on unknown recruitment processes initiating development of a subset of the quiescent germ cells and happens in an unregulated and spontaneous manner. The present project will identify the known and unknown genes involved in recruitment of oocytes from the basal primordial population. These genes will become candidates for aiding infertile women, improving their response to fertility drugs, the development of novel contraceptive methods and potentially increasing the reproductive life span of women. Knowledge of the genes expressed in oocytes matured in vivo and in vitro will have an important bearing on the long-term opportunity to use fertility drugs in vitro instead of administration to patients for IVF. This would dramatically reduce the cost of IVF and the side-effects of hyperstimulation of ovaries of patients and the associated sequelae. The research project is a discovery program leading to the identification of the genes that govern oogenesis in the human. It is only recently that techniques have been developed to sufficient sensitivity to detect the small quantities of RNA proceeded by active genes in the individual germ cells and oocytes.Read moreRead less