Roles Of TGFbeta Receptor TGFBR3 (Betaglycan) In Testis Development
Funder
National Health and Medical Research Council
Funding Amount
$332,660.00
Summary
Diseases of the reproductive tract are major health issues. At lease 1 in 100 live births display some sort of gonadal defects. Later in adulthood, one in six couples are affected by infertility, and cancers of the reproductive tract which result in a significant number of deaths each year. This project focuses on understanding the role of the transformation growth factor beta receptor3 (Tgfbr3) in the embryonic and neonatal testis and its impact on adult male reproductive capacities and health.
This project aims to study the hormonal control of Sertoli cell development and function. In the testis, these highly specialised cells provide essential nutritional and structural support for sperm production. In current NHMRC-supported research we created a unique mouse model to study the individual roles of two key reproductive hormones FSH and testosterone in spermatogenesis. This novel approach involved the selective expression of transgenic FSH on the hormone-deficient background of hpg mi ....This project aims to study the hormonal control of Sertoli cell development and function. In the testis, these highly specialised cells provide essential nutritional and structural support for sperm production. In current NHMRC-supported research we created a unique mouse model to study the individual roles of two key reproductive hormones FSH and testosterone in spermatogenesis. This novel approach involved the selective expression of transgenic FSH on the hormone-deficient background of hpg mice, which normally lack both androgens and FSH. Our analysis revealed that FSH provided the main stimulation for Sertoli cell and early germ cell proliferation, whereas FSH required testosterone for later stages of sperm formation. In this proposal we now plan to investigate FSH and the changing steroidal contributions during the critical postnatal stage of Sertoli cell development. We will study individual of combined actions of FSH and steroids, including the controversial role of estradiol in Sertoli and germ cell function, which may all have profound consequences on sperm production and male fertility. We will also establish unique mouse models to address fundamental questions about the mechanisms of androgen actions in the testis, and the requirement for androgen receptor expression in Sertoli and neighbouring peritubular cells for the overall testosterone response. Furthermore, we will use new microarray gene screening technology to identify the FSH- and androgen-regulated gene pathways during Sertoli cell proliferation. This research has relevance to the controversial view of environmental steroids affecting human testicular development and reducing sperm counts, and offers the potential to uncover new causes of previously unexplained male infertility or testicular cancers, and to help develop better strategies for hormonal male contraceptives, and treatments for male infertitliy or cancer.Read moreRead less
Testis To Ovary: Hormonal Control Of Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$803,379.00
Summary
We know very little of the genes that control development of the ovary in female fetuses; most study has focused on the formation of the testis in males. We will use a novel experimental model, a marsupial, where by hormonal treatment of developing males we can switch off testis formation and activate the ovarian pathway. These studies will potentially shed new light on the causes of reproductive diseases including ovarian cancer, as well as clarifying the basic biological processes that guide f ....We know very little of the genes that control development of the ovary in female fetuses; most study has focused on the formation of the testis in males. We will use a novel experimental model, a marsupial, where by hormonal treatment of developing males we can switch off testis formation and activate the ovarian pathway. These studies will potentially shed new light on the causes of reproductive diseases including ovarian cancer, as well as clarifying the basic biological processes that guide formation of the ovary.Read moreRead less
Disorders of sexual development are among the most common form of birth defects in humans (1 in 4,000 births) because failure of the gonads to develop does not affect the viability of the individual. Such disorders can have profound psychological and medical consequences upon the individual, family, and society. Some intersexual conditions are the result of inappropriate exposure to hormones during fetal life, and others are due to spontaneous or inherited gene mutation. About 5-10% of ovarian c ....Disorders of sexual development are among the most common form of birth defects in humans (1 in 4,000 births) because failure of the gonads to develop does not affect the viability of the individual. Such disorders can have profound psychological and medical consequences upon the individual, family, and society. Some intersexual conditions are the result of inappropriate exposure to hormones during fetal life, and others are due to spontaneous or inherited gene mutation. About 5-10% of ovarian cancer cases, that affect 1 in 8000 Australian women, are due to the inheritance of a faulty gene. An understanding of the way gene expression and hence tissue differentiation is altered after sex reversal will inform us about the causes and consequences of normal and abnormal sexual development, gonadal malignancies and infertility. The gonad is unusual in that two completely different organs can arise from an essentially identical primordium, so that errors in development lead to intersexual phenotypes. We will use our new experimental animal model to clarify these processes.Read moreRead less