This study is investigating an autoimmune disease called lymphocytic hypophysitis, involving the master gland in the body, the pituitary. It often affects pregnant women and is under diagnosed. The aim of our study is to determine the cause of this disease and its unexplained link with pregnancy. We are also working on a new diagnostic test which will enable doctors to confirm the diagnosis by serological means. At present, invasive pituitary biopsy is needed. Whilst developing this new test, we ....This study is investigating an autoimmune disease called lymphocytic hypophysitis, involving the master gland in the body, the pituitary. It often affects pregnant women and is under diagnosed. The aim of our study is to determine the cause of this disease and its unexplained link with pregnancy. We are also working on a new diagnostic test which will enable doctors to confirm the diagnosis by serological means. At present, invasive pituitary biopsy is needed. Whilst developing this new test, we have identified three proteins and their genes. This information may have major implications for the study of pituitary gland function.Read moreRead less
This project is about the way that the brain controls reproduction. It is important because there is no known cause for infertility in a significant number people with such a problem. The project should inform us on new ways to manage particular forms of reproductive failure.
Gonadotropin Inhibitory Hormone (GnIH); A Negative Regulator Of Reproduction
Funder
National Health and Medical Research Council
Funding Amount
$752,936.00
Summary
Gonadotropin inhibitory hormone (GnIH) is a short peptide of 8 amino acids that is produced by the brain and acts in a negative manner on brain and pituitary cells that control reproduction. This project aims to elucidate the role of GnIH in normal physiology and in states of stress and negative metabolic state. Work will be carried out in various species to define the function of the peptide and also to investigate ways that it can be utilised to prevent reproduction.
Identifying The Pathological Mechanism Of Polyalanine Expansion Mutations In The X-linked Hypopituitarism Gene SOX3
Funder
National Health and Medical Research Council
Funding Amount
$402,846.00
Summary
Mental retardation (MR) is a debilitating disorder which affects 1-3% of the population. In many cases, MR results from changes (mutations) in genes which regulate the development of the brain before birth. We are studying families with an inherited form of MR termed X-linked Hypopituitarism (XH) in which only boys are affected. In addition to intellectual disability, boys with XH also have poor pituitary function resulting in short stature and slow metabolism. In severe cases, where the pituita ....Mental retardation (MR) is a debilitating disorder which affects 1-3% of the population. In many cases, MR results from changes (mutations) in genes which regulate the development of the brain before birth. We are studying families with an inherited form of MR termed X-linked Hypopituitarism (XH) in which only boys are affected. In addition to intellectual disability, boys with XH also have poor pituitary function resulting in short stature and slow metabolism. In severe cases, where the pituitary has failed to form completely, these babies are extremely ill and in some instances do not survive. We have previously shown that XH is due to an unusual change in the SOX3 gene in which the number of consecutive alanine residues is increased above a critical threshold (polyalanine expansion mutations). Similar mutations have recently been identified in several other genes that also cause severe birth defects. However, little is currently known about how polyalanine expansion mutations cause these disorders. The overall aim of this proposal is generate a mouse model for this disorder. Analysis of these mice will help us to answer many unresolved questions about this disorder including: How does the mutant protein cause this disorder? Which parts of the brain and pituitary are affected and how is their function altered? How does the mutant protein affect other genes and proteins in the cell? Ultimately, we hope that this mouse model will help us to develop new and improved therapies for XH and other disorders that are caused by alanine expansion mutations.Read moreRead less