A Novel Role For Proteolysis In Promoting Inner Ear Cell Injury And Hearing Loss
Funder
National Health and Medical Research Council
Funding Amount
$972,818.00
Summary
Nearly 40% of hearing loss is attributable to traumatic noise exposure. This project will test a new idea that cells in the inner ear are damaged and die via noise-induced proteolysis, and investigate whether a similar mechanism operates during age-related hearing loss. It will open new avenues for therapies to preserve hearing where trauma is unavoidable, or has occurred through accident or incident.
Role Of Bcl-2 Family Proteins In The Development And Therapy Of Acute Myeloid Leukaemia (AML)
Funder
National Health and Medical Research Council
Funding Amount
$681,259.00
Summary
Impairment of cell death (apoptosis) is a critical step in cancer development and limits responsiveness to therapy. This project will investigate the influence of several key apoptosis regulators on the development and treatment of acute myeloid leukaemia (AML), a devastating disease with poor prognosis, and explore whether new drugs known as BH3 mimetics can improve treatment.
The Role Of MOZ In The Development Of The Hematopoietic System, Spleen And Thymus
Funder
National Health and Medical Research Council
Funding Amount
$324,375.00
Summary
Current treatment of leukaemia in adults is unsatisfactory with the majority of patients dying. In the past most treatments for cancer have been empirical, that is a particular drug has been found to be effective by trial and error rather than a process of rational design. In order to improve the rate at which effective treatments for leukaemia are found it is necessary to understand how hematopoiesis is regulated and what the critical points are where things can go wrong, leading to cancer. Som ....Current treatment of leukaemia in adults is unsatisfactory with the majority of patients dying. In the past most treatments for cancer have been empirical, that is a particular drug has been found to be effective by trial and error rather than a process of rational design. In order to improve the rate at which effective treatments for leukaemia are found it is necessary to understand how hematopoiesis is regulated and what the critical points are where things can go wrong, leading to cancer. Some genes are commonly found to be mutated in leukaemia. Clearly these genes are involved in some key aspect of regulation of hematopoiesis. We are studying one of these genes, MOZ, which is mutated in acute myeloid leukaemia. The purpose of this grant is to determine what the normal function of this gene is. One of the most promising new treatments for leukaemia is directly targeting the regulation of gene expression inside the cell. MOZ is one of the proteins, which regulates gene expression in hematopoiesis and controls the differentiation of different types of blood cells. One of the possible effects of these new types of anticancer drugs is to accentuate the normal function of MOZ. However, at the moment we don't know what the normal function of MOZ is so it is impossible to test this prediction. If we know which pathways controlling blood formation MOZ is acting in it may be possible, in the future, to use this information to improve on the current anti cancer drugs in a more directed way than has been possible in the past.Read moreRead less
Investigating The Role Of SERPINB6 In Cochlear Function And Deafness
Funder
National Health and Medical Research Council
Funding Amount
$570,803.00
Summary
In 2010 a novel genetic mutation was identified that causes progressive hearing loss in humans, however, it was not established why this mutation leads to the disease. We propose that the mutation renders cells of the inner ear more susceptible to death caused by noise trauma. We will investigate this in a mouse model of the human condition. This could lead to the development of therapies that prevent hearing loss.
Mechanisms Responsible For Pancreatic Beta Cell Death And Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Diabetes is the fastest growing chronic disease both in Australia and worldwide. Current treatments are lacking effectiveness. Therefore, there is an urgent need to revolutionise diabetes therapy. Diabetes is caused by the failure of cells within the pancreas to produce sufficient insulin, resulting in uncontrolled blood sugar levels. This research proposal aims to investigate the processes and factors leading to this phenomenon in order to develop new strategies to overcome them.
Cancer is constantly being suppressed in our bodies by a process that stops damaged cells from growing: 'senescence'. The mechanism that translates the damage stimuli into this state of permanent cell arrest is only partially known. We have identified a protein that appears to drive this restraint. The possibility of manipulating this process to prevent and cure cancer makes it in important target to study.
The role of a novel protein, interferon epsilon, in reproductive tract immunity. This project aims to develop a world-first description of a new protein that has a protective role against female reproductive tract infections. This unique protein, called interferon epsilon, was discovered in our laboratory. This project will facilitate development of new therapeutic approaches of benefit in diseases such as Chlamydia and Herpes Simplex Virus.