Hormonal Control Of Serotli Cell Maturation And Function
Funder
National Health and Medical Research Council
Funding Amount
$512,898.00
Summary
This project will determine the key roles of androgen in the Sertoli cell, a unique highly specialised cell that provides essential nutritional and structural support for sperm production. Androgen acts via the androgen receptor (AR), which is vital for initiating and maintaining sperm development. In current NHMRC-funded research we successfully established new mouse models designed to study AR, in particular its regulation of gene expression, in the Sertoli cell. We revealed that genomic AR ac ....This project will determine the key roles of androgen in the Sertoli cell, a unique highly specialised cell that provides essential nutritional and structural support for sperm production. Androgen acts via the androgen receptor (AR), which is vital for initiating and maintaining sperm development. In current NHMRC-funded research we successfully established new mouse models designed to study AR, in particular its regulation of gene expression, in the Sertoli cell. We revealed that genomic AR activity within Sertoli cells is essential for 'induction' of complete sperm development. Ongoing work will develop unique 'inducible' transgenic models that will allow, for the first time, selective analysis of Sertoli AR in both 'developing' and 'adult' testes. Our innovative models will allow AR function to be switched on or off at any stage of development, providing unique opportunity to determine the key AR-regulated factors and pathways controlling induction, maintenance or restoration of sperm production. In past NHMRC research we created a novel transgenic model to study another major reproductive hormone, FSH. Using the hormone-deficient background of 'hpg' mice, we found that androgen and FSH act synergistically in the developing 'meiotic' germ cells that form sperm. Using the latest microarray gene technology we generated datasets of androgen-regulated genes with or without FSH activity, which combined with our unique transgenic AR and FSH models, will be used to identify key pathways, including those enhanced by androgen-FSH synergism, in the early testicular response. Our research will provide new knowledge of the precise roles and pathways of testicular AR actions, to ultimately identify key genetic and regulatory factors as targets for significantly improved therapy for male infertility, gonadal tumours, or contraception.Read moreRead less
The Sertoli Cell: Master Regulator Of Hormone-induced Spermatogenic Development
Funder
National Health and Medical Research Council
Funding Amount
$563,536.00
Summary
This project will determine the key roles of major hormones (testosterone, follicle-stimulating hormone, Vitamin A) in Sertoli cells, unique highly specialised cells found in the testis that provide essential nutritional and structural support for sperm production. This research will provide new understanding of the biological pathways controlling sperm development, leading to new molecular targets for infertility or cancer treatment or diagnosis, or new contraceptive strategies for 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 Roles Of EZH2 And FOXO1A In CNS-PNET Pathogenesis.
Funder
National Health and Medical Research Council
Funding Amount
$467,517.00
Summary
Although CNS-PNETs are the most common embryonal CNS tumours of childhood and cause significant mortality and morbidity, there is a very limited understanding of the pathogenesis of this aggressive disease. This situation is a major handicap to the development of more specific and effective therapies. While a better understanding of the fundamental pathology of CNS-PNETs will have immediate diagnostic implications, the elucidation of the biochemical pathways that are disrupted in these tumours w ....Although CNS-PNETs are the most common embryonal CNS tumours of childhood and cause significant mortality and morbidity, there is a very limited understanding of the pathogenesis of this aggressive disease. This situation is a major handicap to the development of more specific and effective therapies. While a better understanding of the fundamental pathology of CNS-PNETs will have immediate diagnostic implications, the elucidation of the biochemical pathways that are disrupted in these tumours will facilitate the design of new drugs that are specifically directed towards the critical proteins in these pathways. The identification of specific genes and-or pathways that are deregulated in CNS-PNET cells is essential for the development of safer, more directed, and more effective therapies that are urgently required for the treatment of those with this devastating disease.Read moreRead less
I seek the knowledge required to improve prevention, diagnosis and therapy for men with testicular pathologies by studying what controls early sperm development. My research will delineate how cellular signalling molecules lay the foundation for adult fertility, using animal studies, cell culture and clinical samples. Testis samples from testicular cancer patients will be used to test interventions that may kill tumour cells or offer a therapeutic option to men with impaired spermatogenesis.
Defining The Role Of Activin C In Gonadal And Adrenal Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$441,511.00
Summary
Activins are members of the inhibin/TGF_ superfamily of growth and differentiation factors. Our published work implicates one of them, activin-_C as a regulator of activin A synthesis and/or its action. To test our hypothesis we will cross activin-_C over-expressing mice (ActC++ ) with inhibin a subunit knock-out mice (_-KO) that develop gonadal and adrenal tumourigenesis and is caused by increased activin A. We predict that if correct, we will prevent or delay reproductive and adrenal tumourige ....Activins are members of the inhibin/TGF_ superfamily of growth and differentiation factors. Our published work implicates one of them, activin-_C as a regulator of activin A synthesis and/or its action. To test our hypothesis we will cross activin-_C over-expressing mice (ActC++ ) with inhibin a subunit knock-out mice (_-KO) that develop gonadal and adrenal tumourigenesis and is caused by increased activin A. We predict that if correct, we will prevent or delay reproductive and adrenal tumourigenesis and prolong survival.Read moreRead less
Sellar Masses, Pituitary Adenomas And Pathways Of Pituitary Tumourigenesis
Funder
National Health and Medical Research Council
Funding Amount
$90,917.00
Summary
Pituitary tumours encompass a number of pathologies. Their cause is not clearly established. Pituitary adenomas are one of the most frequent intracranial tumours. The genetics of sporadic tumours is unknown. Craniopharyngiomas are rare brain tumours arising in the pituitary stalk area that can have profound effects, presenting in childhood or later. To date there is limited knowledge on the cell signaling pathways causing these tumors, which can help to understand cancer in general.