Understanding The Molecular Basis Of Epididymal Maturation: How Does The Epididymis Modify Spermatozoa, Allowing Them To Recognise The Egg ?
Funder
National Health and Medical Research Council
Funding Amount
$585,898.00
Summary
Male infertility is a significant clinical problem affecting one in twenty Australian men. A common feature of this condition is the sperm’s inability to recognize the egg. Sperm gain this property as they transit an organ known as the epididymis. We have produced genetically modified mice with a specific epididymal defect that prevents sperm-egg recognition. This study will examine the structure of these defective sperm to generate new insights into the molecular basis of sperm-egg interaction.
This project is about the way that the brain controls reproduction. It is important because there is no known cause for infertility in a significant number people with such a problem. The project should inform us on new ways to manage particular forms of reproductive failure.
Gonadotropin Inhibitory Hormone (GnIH); A Negative Regulator Of Reproduction
Funder
National Health and Medical Research Council
Funding Amount
$752,936.00
Summary
Gonadotropin inhibitory hormone (GnIH) is a short peptide of 8 amino acids that is produced by the brain and acts in a negative manner on brain and pituitary cells that control reproduction. This project aims to elucidate the role of GnIH in normal physiology and in states of stress and negative metabolic state. Work will be carried out in various species to define the function of the peptide and also to investigate ways that it can be utilised to prevent reproduction.
Male-female Sperm Signalling - A Novel Pathway For Peri-conceptual Health?
Funder
National Health and Medical Research Council
Funding Amount
$674,920.00
Summary
This project will investigate a new biological process in reproduction, whereby sperm delivered to the cervix at coitus transmit signalling molecules called microRNAs that influence the female immune response, to increase the chances of conception and pregnancy. We will define the molecular details of this signalling pathway in mouse models, and then determine whether human sperm have a comparable function in ‘priming’ the female body to conceive.
Most pregnancy complications, including miscarriage, pre-eclampsia, fetal growth restriction and stillbirth, stem from poor development of the placenta early in pregnancy. Restricted fetal growth in the uterus increases the babies risk of cardiovascular and other disorders in later life. This research will investigate whether Corin, an enzyme discovered in the heart, helps the mothers uterus prepare for pregnancy. Disruptions in Corin production during early pregnancy is likely to be involved in ....Most pregnancy complications, including miscarriage, pre-eclampsia, fetal growth restriction and stillbirth, stem from poor development of the placenta early in pregnancy. Restricted fetal growth in the uterus increases the babies risk of cardiovascular and other disorders in later life. This research will investigate whether Corin, an enzyme discovered in the heart, helps the mothers uterus prepare for pregnancy. Disruptions in Corin production during early pregnancy is likely to be involved in major pregnancy complications and loss.Read moreRead less
Soluble Endoglin In The Pathogenesis Of Preeclampsia: Investigation Of Mechanisms And The Development Of Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$572,733.00
Summary
Preeclampsia is a severe disease of pregnancy. As the pathogenesis is poorly understood, the only treatment is for clinicians to deliver babies irrespective of gestation. We have identified MMP-14 as the molecular scissors that release soluble endoglin from placenta, a toxin centrally responsible for severe preeclampsia. In this project we aim to further investigate the mechanisms governing soluble endoglin release and to begin developing a potential therapeutic for use in the clinic.
The failure of an embryo to implant is a major cause of infertility. While IVF is an important intervention, still three quarters of embryos do not implant. We have identified new factors that we believe are critically important in embryo attachment to the womb. We will now prove whether these factors are critical and therefore provide the evidence required to begin to develop novel treatment options for infertility.
Determining The Impact Of Inherited Epigenetic Information On Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$511,691.00
Summary
Recent observations show that the environment in which you live can alter disease susceptibility in your children, without altering the sequence of your genes. This is due to epigenetic mechanisms which control the way the DNA is interpreted. In this study we will study the potential for epigenetic mechanisms to affect sperm production and impact characteristics and disease in the next generation.
Facilitating Endometrial Receptivity To Improve Pregnancy Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$734,252.00
Summary
The womb prepares itself in each menstrual cycle for pregnancy and the implantation of an embryo. In some women, the endometrium may not prepare itself adequately and this can lead to infertility. We have identified small RNA that may be useful in predicting which women are not adequately prepared for implantation and may be used to develop treatments for infertile women, for which there are currently no treatments.
Epigenetic Regulation Of Male Fetal Germ Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$562,176.00
Summary
Men’s health has declined over recent decades, but the causes remain unknown. Non-genetic (epigenetic) mechanisms affecting formation and function of the male germ cells (which produce sperm) may play an important role. We will determine the role of a key epigenetic modifier on the formation and function of male germ cells, including germ cell tumours. This study will provide fundamental insights into male germ cell epigenetics, and significantly contribute to understanding men's health.