Membrane Attachment And Components Of The Ca2+ -triggered Release Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$386,498.00
Summary
Understanding and harnessing the fundamental cellular process of secretion will provide a wealth of new approaches to addressing problems associated with aging & disorders that are major health care burdens (e.g. neurodegeneration & diabetes). Understanding the vesicle docked state, and the contributions of different molecular components to the release process provides for unique insights into the underlying molecular mechanisms, thereby enabling safe, targeted control of this critical process.
Dissecting A Serial Killer: Investigating The Degranulation Pathways In Cytotoxic Lymphocytes
Funder
National Health and Medical Research Council
Funding Amount
$604,459.00
Summary
When cells of the human body become cancerous or infected with virus, the body's immune system engages cytotoxic lymphocytes, known as "killer cells", that secrete an auxiliary of toxic proteins to eliminate these cells. The aim of this study is to investigate the mechanisms by which these critical immune cells accomplish this task. Importantly, humans who are genetically lacking in critical constituents of the cytotoxic lymphocyte are less able to fight off a viral infection and may be at a hig ....When cells of the human body become cancerous or infected with virus, the body's immune system engages cytotoxic lymphocytes, known as "killer cells", that secrete an auxiliary of toxic proteins to eliminate these cells. The aim of this study is to investigate the mechanisms by which these critical immune cells accomplish this task. Importantly, humans who are genetically lacking in critical constituents of the cytotoxic lymphocyte are less able to fight off a viral infection and may be at a higher risk of developing cancer.Read moreRead less
Cytoskeletal Remodeling Of The Erythrocyte During Malaria Parasite Invasion
Funder
National Health and Medical Research Council
Funding Amount
$559,807.00
Summary
Malaria parasites cause profound human disease through infection of the red blood cell. How parasites break into the red cell is incompletely understood. Foremost, the parasite must induce radical changes in its structural integrity to enter, but to date no study has been able to precisely map these cellular events. In this research program we aim to dissect the entire process using state-of-the-art imaging, molecular biology and proteomics to shine new light on this key step in malaria disease ....Malaria parasites cause profound human disease through infection of the red blood cell. How parasites break into the red cell is incompletely understood. Foremost, the parasite must induce radical changes in its structural integrity to enter, but to date no study has been able to precisely map these cellular events. In this research program we aim to dissect the entire process using state-of-the-art imaging, molecular biology and proteomics to shine new light on this key step in malaria disease establishment.Read moreRead less
Molecular Characterization Of Dengue Virus Fusion And Antiviral Inhibitors.
Funder
National Health and Medical Research Council
Funding Amount
$573,557.00
Summary
Dengue viruses are transmitted by mosquitoes and cause major epidemics in more than 100 countries around the world, including Australia. Infection with dengue viruses cause severe and sometimes fatal disease. This proposal focuses on the way dengue virus enters cells and the development of drugs that will prevent virus entry. We have already identified compounds that inhibit the entry process of dengue into cells and this project will significantly build on these early findings.
Modulating Neuronal Secretion By The PI3-kinase Pathway
Funder
National Health and Medical Research Council
Funding Amount
$516,855.00
Summary
Neuronal communication relies on the process of exocytosis by which neurons release neurotransmitter. Exocytosis is critical for the simplest reflex movement to complex tasks such as learning and memory, and is altered in several neurodegenerative pathologies. We will investigate how certain lipids control exocytosis. This research is important for understanding how neurons communicate in health and disease and is relevant to other processes such as insulin release in diabetes.
Dysferlinopathy: A Genetic Disease Sheds Light On Membrane Repair For Muscle And Cardiac Injury
Funder
National Health and Medical Research Council
Funding Amount
$782,806.00
Summary
Muscles are damaged all of the time, as we stretch and contract them, but we don't fully understand how they repair themselves. We are studying the molecular steps taken by a muscle cell to repair membrane damage. Our research will provide valuable insights into how to treat muscular dystrophy and other conditions characterised by membrane damage to cells, such as heart attack and stroke.
Dysferlin Coordinates Membrane Repair For Skeletal And Cardiac Injury
Funder
National Health and Medical Research Council
Funding Amount
$459,270.00
Summary
Muscles are damaged all of the time, as we stretch and contract them, but we don't fully understand how they repair themselves. We are studying the molecular steps taken by a muscle cell to repair membrane damage. Our research will provide valuable insights into how to treat muscular dystrophy and other conditions characterised by membrane damage to cells, such as heart attack and stroke.