Biomarkers For The Diagnosis And Prognostic Analysis Of Male Infertility
Funder
National Health and Medical Research Council
Funding Amount
$631,370.00
Summary
Male infertility is a common condition, affecting 1 in 15 men. Although a standard semen analysis is often performed to test whether a man is infertile, it is far from definitive. We have developed a new approach, by looking at proteins that are commonly missing from infertile sperm cells. From this analysis, we can definitively diagnose male infertility and are beginning to understand why men are becoming infertile.
The Role Of Dynamin In Spermatogenesis, Sperm Maturation And Sperm-oocyte Interactions
Funder
National Health and Medical Research Council
Funding Amount
$551,950.00
Summary
Male infertility is an extremely common condition affecting 1 in 20 Australian men. One of the major reasons for this pathology is that the spermatozoa have lost their ability to interact with the egg and penetrate its outer vestments. In this project we shall investigate the role of dynamin in the regulation of these events. This research will provide new and powerful insights into the causes of male infertility, with practical implications for diagnosis and treatment of this condition.
Investigation Of The Mechanisms Underpinning HSPA2 Dysfunction In The Spermatozoa Of Infertile Patients
Funder
National Health and Medical Research Council
Funding Amount
$481,563.00
Summary
Male infertility is an extremely common condition, that is frequently associated with the production of sperm that have lost their ability to recognize the egg. We have shown that this defect is frequently associated with a deficiency in a specific protein (HSPA2). By determining the mechanisms underpinning the loss of HSPA2, this project will provide powerful insights into the causes of male infertility, with practical implications for prevention, diagnosis and treatment of this condition.
Seminal Plasma Cytokines As Novel Fertility Diagnostics In Men
Funder
National Health and Medical Research Council
Funding Amount
$101,000.00
Summary
Infertility and recurrent miscarriage affect 60-80 million couples globally, including 15% of couples in Australia. Current IVF therapy is not successful when the underlying reason for infertility is failure of the maternal tissues to support embryo implantation. We have discovered signaling proteins present in male semen that act in the female reproductive tissues to prepare for embryo implantation and healthy pregnancy. Recently we have identified those proteins and have shown that some men ha ....Infertility and recurrent miscarriage affect 60-80 million couples globally, including 15% of couples in Australia. Current IVF therapy is not successful when the underlying reason for infertility is failure of the maternal tissues to support embryo implantation. We have discovered signaling proteins present in male semen that act in the female reproductive tissues to prepare for embryo implantation and healthy pregnancy. Recently we have identified those proteins and have shown that some men have an imbalance in seminal proteins that leads to immune rejection of the embryo in the female partner. This project aims to develop a new test for male fertility that is based on seminal plasma proteins and independent of existing sperm count tests. Furthermore we will determine whether seminal protein imbalance can result from the �silent� presence of male reproductive tract infection.Read moreRead less
Understanding Idiopathic Male Infertility: Biomarkers To Assist In The Diagnosis And Assisted Reproductive Technology Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$411,012.00
Summary
In order to help in the diagnosis of male infertility, we have found several biomarkers that can be readily and quickly used to determine if a mans spermatozoa are infertile. Not only will this save time and money for couples involved in IVF, but help to avoid unnecessary, often invasive medical procedures that are currently used.
Cysteine-rich Secretory Protein Regulation Of Ion Channels In Male Fertility And Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$474,309.00
Summary
Diagnosis of the precise causes of male infertility and the development of male contraceptives requires improved understanding of sperm function. The Cysteine-Rich Secretory Proteins (CRISPs) are produced in the male reproductive tract where they regulate sperm function. Our project will demonstrate the essential requirement for CRISPs in sperm function and investigate their role in other tissues of the reproductive tract, including the prostate where they may be involved in prostate cancer.
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
The Long-term Consequences Of Assisted Reproduction On The Growth, Metabolic, Respiratory, Psychological, Immunological And Reproductive Development Of The Offspring.
Funder
National Health and Medical Research Council
Funding Amount
$1,552,096.00
Summary
1 in 25 children are born from IVF treatment - incredibly- to our shame; no data exists as to the long-term health of these children. Presented is a unique opportunity, which would be exceedingly difficult to replicate elsewhere in the world, to determine the long-term consequences of IVF upon the development of the offspring, by comparing their growth, metabolic, respiratory, psychological, immunological and reproductive development to a representative sample of WA children- the Raine cohort.
Activation Of GDF9 Regulates Human Folliculogenesis
Funder
National Health and Medical Research Council
Funding Amount
$531,690.00
Summary
GDF9 is a key regulator of fertility in female mammals, as it controls the process of folliculogenesis. In this grant, we will demonstrate the importance of GDF9 in human folliculogenesis, determine the mechanisms that activate GDF9 and show why aberrant GDF9 activation leads to ovarian disorders. Collectively, the outcomes of this proposal will increase our understanding of the fundamental mechanisms that regulate ovarian folliculogenesis and provide new avenues to manipulate this process.