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.
Characterization Of The Molecular Basis Of Human Sperm-oocyte Interaction
Funder
National Health and Medical Research Council
Funding Amount
$492,956.00
Summary
In this proposal, we shall exploit our expertise in gamete biology and innovative proteomic technologies to elucidate the molecular mechanisms that underpin human sperm-oocyte interaction. This exquisitely cell- and species-specific event constitutes one of the most strategically important cellular interactions. Our research will provide the foundation for diagnosis and treatment of male infertility and identify a range of targets for the development of novel contraceptive technology.
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.
Molecular Characterization Of Unique Recognition Sites On The Surface Of Human Spermatozoa
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
Developing an understanding of the molecular mechanisms that regulate human sperm function is central to the clinical management of male infertility, attempts to develop novel forms of male contraception and strategies for the introduction of transgenes into the male germ line. Defective sperm function is the largest single defined cause of human infertility. Despite the prevalence of this condition we have no idea how most cases of male infertility arise nor, in a vast majority of patients, do ....Developing an understanding of the molecular mechanisms that regulate human sperm function is central to the clinical management of male infertility, attempts to develop novel forms of male contraception and strategies for the introduction of transgenes into the male germ line. Defective sperm function is the largest single defined cause of human infertility. Despite the prevalence of this condition we have no idea how most cases of male infertility arise nor, in a vast majority of patients, do we understand which particular aspect of sperm biochemistry is defective. As a consequence we have not been able to develop sensitive biochemical diagnostic tests for the infertile male nor do we have any rational methods of treatment that address the cause of this condition. Similarly no new methods of male fertility regulation have been introduced since vasectomy despite the major advances that have been made in the field of female contraception over the same period of time. Clearly if we are to develop sensitive methods for the diagnosis of defective sperm function, introduce protocols for the treatment and prevention of male infertility and discover novel approaches to male contraception, we must first understand the cellular mechanisms that enable these highly specialized cells to perform their unique function. In this study we shall focus on one of the most important attributes of sperm function the capacity of these cells to recognize the egg. Once the biochemical basis of this fundamental recognition process is understood, it should pave the way for the development of clinical applications that target this signaling system with implications for a range of disciplines including reproductive toxicology, occupational medicine, family planning, infertility and biotechnology.Read moreRead less