Male fertility requires sufficient production of healthy sperm in the testis. We discovered that cells in the adult testis communicate via the Hedgehog (Hh) signalling pathway as sperm develop. We propose to use a highly specific drug to inhibit Hh activity in order to delineate the precise steps in sperm production affected by Hh signalling. We will study the importance Hh in maintenance of spermatogonial stem cells and create mouse models to learn how it is controlled.
Germ Cell Development In The Postnatal Testis: The Key To Early Surgery To Prevent Infertility And Malignancy In Cryptorchidism
Funder
National Health and Medical Research Council
Funding Amount
$725,326.00
Summary
The germ cells have been studied very extensively before birth or after puberty, but little is known about what happens shortly after birth. In children with undescended testes, early germ cell development is deranged, and this may be the key to find the right time for surgery to prevent subsequent infertility and risk of cancer. This project proposes some novel hypotheses to explain this and the studies aim to obtain the evidence to support surgery in the first 3-6 months of life..
Persistent Chlyamdial Infection In The Testes : Development Of A Successful Vaccine Strategy For Males
Funder
National Health and Medical Research Council
Funding Amount
$652,019.00
Summary
Males are a reservoir of infection and novel vaccine approaches to control Chlamydia infections in young men are needed urgently. This study will be essential for the development of interventions to control infection and will inform strategies for manipulating the immune system within the male reproductive tract that may be applied to other sexually transmitted pathogens. The studies will benefit the health and welfare of the Australian people under National Research Priority 2, promoting and ma ....Males are a reservoir of infection and novel vaccine approaches to control Chlamydia infections in young men are needed urgently. This study will be essential for the development of interventions to control infection and will inform strategies for manipulating the immune system within the male reproductive tract that may be applied to other sexually transmitted pathogens. The studies will benefit the health and welfare of the Australian people under National Research Priority 2, promoting and maintaining good health and a healthy start to life.Read moreRead less
Regulation Of Immune Responses In The Adult Testis And Male Reproductive Health
Funder
National Health and Medical Research Council
Funding Amount
$637,857.00
Summary
This project investigates the main inflammatory cell, the macrophage, in male fertility and reproductive health. These studies investigate the macrophages found in the testes and the regulation of their functions required to protect and support the developing sperm. Understanding these processes will lead to new methods for treating male infertility, chronic pain and reproductive tract infections, as well as broader understanding of inflammatory disease, transplantation and autoimmunity.
6% of Australian men are infertile. Of these cases 50% are thought to be genetic in origin. Within this project we will replicate high-confidence genetic variants associated with human male infertility in the mouse. Doing so will allow the assignment of definitive genotype-phenotype correlations and the formulation of high confidence advice for clinicians and patients. It will also provide a means to define the mechanism of action and the tools for future pro-fertility treatments.
Identification Of Testis-specific Markers Of Male Infertility
Funder
National Health and Medical Research Council
Funding Amount
$617,008.00
Summary
Infertility affects 1 in 20 men, and carries major health and financial burdens. Patient management is difficult because there are no tests to monitor testicular function. While sperm number is normally used, their absence in the ejaculate provides no information whether sperm are present in the testis suitable for IVF, or if sperm production could be ‘kick-started’ with hormones. Our goal is to identify new markers of testis function in blood, and then use them to help treat infertile men.
Postnatal Germ Cells Are Controlled By FSH During 'minipuberty' At 3-6 Months, And Deranged By Cryptorchidism To Cause Seminoma And Infertility
Funder
National Health and Medical Research Council
Funding Amount
$813,739.00
Summary
This study will investigate the exciting possibility that the risk of cancer and infertility in adulthood in infants born with undescended testes might be obviated by understanding how primitive sperm cells behave in the postnatal testis. The study will define the key changes to the primitive sperm cells, including their timing and control by hormones, so surgery is done at the right time +/-accessory hormone treatment to optimise future sperm function for babies with undescended testes.
The Cause Of Undescended Testis And Inguinal Hernia
Funder
National Health and Medical Research Council
Funding Amount
$743,848.00
Summary
This study aims to define in both animal models and children how the testis descends from the abdomen to scrotum, and how undescended testis and inguinal hernia are likely to be caused by defects in the same, very indirect signalling pathway. The results will demonstrate where to look for genetic causes and proof of principle for possible future medical treatments for the 3 commonest major operations in children for congenital and acquired undescended testis and inguinal hernia.
Role Of Snail Family Proteins In Male Fertility And Testicular Cancer
Funder
National Health and Medical Research Council
Funding Amount
$586,076.00
Summary
Male fertility requires production of healthy sperm in the testis. This project builds on our discoveries that testicular cells regulate gene activity via the Snail family of proteins during sperm development, and that interruption of their activities reduces fertility in mice and fruitflies. Snail proteins are also active in cancer cells. We propose to study the precise steps in sperm production affected by Snail proteins and how they affect the progression of testicular cancer.
Activin Control Of The Male Germline For Reproductive Health
Funder
National Health and Medical Research Council
Funding Amount
$915,786.00
Summary
The growth factor activin provides key signals in embryonic and infant testes to coordinate development of male germline cells into sperm. This project tests how activin controls genetic stability when the human testis is vulnerable to forming germline cells that become tumours in young men. We will study how activin acts to allow sperm stem cells to multiply and develop in sufficient numbers for adult fertility.