Growth Factors And Regulatory Genes Controlling Male Spermatogonial Proliferation And Differentiation.
Funder
National Health and Medical Research Council
Funding Amount
$354,536.00
Summary
In newborn and prepubertal boys the testis contains germ cells which are at a premature stage of development and very suseptible to degeneration especially if the testes fail to descend to the scrotum. The molecules which are responsible for the health of these germ cells have been unknown and only recently the way has been opened for direct study of these factors. This has been made possible by a new assay, developed in our labarotory, in which we can grow these germ cells under defined conditi ....In newborn and prepubertal boys the testis contains germ cells which are at a premature stage of development and very suseptible to degeneration especially if the testes fail to descend to the scrotum. The molecules which are responsible for the health of these germ cells have been unknown and only recently the way has been opened for direct study of these factors. This has been made possible by a new assay, developed in our labarotory, in which we can grow these germ cells under defined conditions. This step forward has highlighted some areas of knowledge which need further research such as identification of the processes which stimulate gonocytes to grow and divide. We need to test growth factors, somatic cell factors and also isolate new genes which are associated with germ cells and their growth. This knowledge will have outcomes in two major areas. First, the new findings could be applied to treatment of infertility resulting from undescended testes in which a stimulus could be given to make the germ cells grow again. Second, work in developing longer term culture of germ cells coupled with introduction of mutations will enable us to make mutant mice with a specific gene abnormality, similar to transgenic or gene knockout mice. This technological development would prove less expensive and time consuming with more reproducible and direct outcomes. Mutant mouse technology is a powerful tool to determine the effects of individual genes in the whole animal (mouse).Read moreRead less
Discriminating The Roles Of Inhibin A And B In Reproductive Systems
Funder
National Health and Medical Research Council
Funding Amount
$312,576.00
Summary
Inhibin A and B are essential for the regulation of fertility based on their dual inhibitory actions on follicle stimulating hormone secretion by the pituitary and egg and sperm production in the gonads. An understanding of the mechanisms involved in inhibin A and B actions will: (1) identify novel biomarkers for the diagnosis of reproductive disorders (2) enhance the management of reproductive disorders (3) identify targets for the development of therapeutic means of modulating fertility