Regulation Of Cell Death, Cell Survival And Ubiquitination In Normal Physiology And Disease
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
The project will investigate the functions of specific genes and pathways to understand the molecular basis of various diseases. It is based on our data that indicate new roles for (i) cell death in genomic instability in cancer, and (ii) ubiquitination in hypertension, developmental defects, kidney disease, as well as iron homeostasis. The work will lead to new understanding of human disease and discovery of potential new drug targets. It will also provide training of junior scientists.
Inflammasome Function In Protection Against Infectious Disease And Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$631,010.00
Summary
Inflammation, characterised by swelling, heat, pain and redness, is a normal response to injury and infection. Many human diseases such as gout, athersclerosis, diabetes and Alzheimer’s disease involve some inflammation, mediated through a common pathway termed the inflammasome. This project will investigate the proteins involved in this pathway and how they interact in their normal role of combatting infections, as well as a possible defect in this pathway in autoimmune patients.
The amygdala is a part of the brain that processes and lays down emotional memories. Dysfunction in the amygdala is responsible for anxiety related disorders such post-traumatic stress disorder. I will study the neural circuits in the amygdala using innovative recordings and stimulation techniques. These studies will provide insight into the circuits that underpin anxiety related neurological disorders and provide targets for development of novel anxiolytic agents.
Structural Studies Of The Molecular Machinery Regulating Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$638,517.00
Summary
Our bodies use a process called Programmed Cell Death to remove unwanted or dangerous cells. This work aims to understand the machinery that regulates this process at the molecular level. These insights will inform the development of drugs aimed at either initiating cell death when required, for example in cancer, or at inhibiting it when excessive cell death causes disease.
I am a cell biologist/geneticist focusing on understanding tumourigenesis. Cancer is a multigenic and complicated disease, involving interactions between the tumour and normal tissue. I use the genetically tractable model organism, the vinegar fly, Drosophila, to model cancer in situ and identify novel genes that drive cancer. My 5 year career plan is to use the Drosophila system to model cooperative tumourigenesis in epithelial and brain tissues and translate this to human cancer.
Targeting Host Pathogen Interactions And Signalling Networks To Promote Death Of Infected Cells And Facilitate Pathogen Clearance
Funder
National Health and Medical Research Council
Summary
Preclinical models of infectious diseases including hepatitis B, HIV, tuberculosis and human herpes virus infections will be used to understand how pathogens interact with host cells. With this understanding we aim to identify which host cell signalling pathways play a critical role in limiting or faciliating pathogen persistence. After identifying the important cellular pathways we aim to target these host cell signalling components with clinical stage drugs to promote pathogen clearance.
Overcoming Resistance Of Human Metastatic Melanoma To Treatment
Funder
National Health and Medical Research Council
Funding Amount
$727,758.00
Summary
Melanoma is a major Australian health problem, but there is no curative treatment once the disease spreads beyond the skin. I have been working on “overcoming resistance of melanoma to treatment” continuously for 10 years. My past research has provided a number of insights into the resistance of melanoma to treatment. I wish to extend my work to find new treatment approaches against the disease. If successful, this work will greatly benefit melanoma patients and Australian people.
Developmental Neurobiology Of Schizophrenia And Translation Into New Treatments
Funder
National Health and Medical Research Council
Funding Amount
$611,574.00
Summary
Our ultimate goal is to expand effective treatment options for people with schizophrenia particularly ones that can prevent schizophrenia from developing. The successful completion of this project will identify novel biological pathways by which schizophrenia develops and, importantly, will yield new molecular tools to personalise treatment of schizophrenia.
Development of normal brain function requires information transfer and integration from outside and within the brain. Normal brain wiring is guided by genetic and environmental cues, whose relative contributions remain controversial. This project investigates the physiological and behavioural consequences of abnormal brain wiring, and the potential for controlled environments and targeted interventions to overcome the deficits. Relevance includes neurotrauma as well as mental illnesses.
Sudden Cardiac Arrest: Improving Detection Of Patients At Risk
Funder
National Health and Medical Research Council
Funding Amount
$838,845.00
Summary
Sudden cardiac death accounts for ~10% of deaths in our community. Many of these deaths occur in people who could otherwise have had many more years of productive life ahead of them. The aim of our research is to determine the underlying mechanisms so that we can develop better tools for detecting underlying problems before they become life threatening and potentially develop new treatments to modify the underlying causes.