Professor Stick is a career clinician researcher in Paediatric Respiratory Medicine. He has established worl-leading research teams focused on respiratory diseases in young children such as cystic fibrosis and asthma. He has has developed innovative methods to study early childhood respiratory diseases and has been responsible for training scores of clinicians and scientists in the field. He has received national and international awards in recognition of his achievements.
Physiological Function Of Nedd4-2 In Regulating The Epithelial Sodium Channel And Cystic Fibrosis Transmembrane Conductance Regulator
Funder
National Health and Medical Research Council
Funding Amount
$949,572.00
Summary
Optimal transport of sodium and chloride ions is essential for the maintenance of electrolyte balance, blood volume, blood pressure and lung function. We are studying the control of a key sodium channel (the epithelial sodium channel) and a key chloride channel (cystic fibrosis transmembrane conductance regulator) by an enzyme called Nedd4-2. This project will enable us to understand how Nedd4-2 regulates these two ion channels and to study the pathological consequences of the loss of Nedd4-2.
Understanding The Molecular Basis Of Epididymal Maturation: How Does The Epididymis Modify Spermatozoa, Allowing Them To Recognise The Egg ?
Funder
National Health and Medical Research Council
Funding Amount
$585,898.00
Summary
Male infertility is a significant clinical problem affecting one in twenty Australian men. A common feature of this condition is the sperm’s inability to recognize the egg. Sperm gain this property as they transit an organ known as the epididymis. We have produced genetically modified mice with a specific epididymal defect that prevents sperm-egg recognition. This study will examine the structure of these defective sperm to generate new insights into the molecular basis of sperm-egg interaction.
Cytokine And Macrophage Determinants Of Pulmonary Inflammation During Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$455,899.00
Summary
Tuberculosis (TB) infects 33% of the world, causing over 2 million deaths per year. TB disease causes damaging lung pathology and new therapies to treat the infection and moderate inflammation are urgently required. TNF is essential for immunity to TB, acting to modulate inflammation. This grant will determine how soluble and membrane- bound TNF regulate the cellular and cytokine control of TB pathology and may lead to new therapies to limit inflammation in TB and other inflammatory diseases.
DCC-Robo Interactions Cooperate To Regulate Callosal Axon Guidance
Funder
National Health and Medical Research Council
Funding Amount
$383,422.00
Summary
In order for the brain to function, the correct connections between neurons must be formed during development. These connections, formed by the axonal processes of neurons, are able to find their synaptic targets by sensing molecular cues within the brain that guide them, by attraction or repulsion, to their target. This proposal investigates how attractive and repulsive signals are received and integrated in neurons to enable axons to find their targets in the brain.
Molecular Determinants Of Subcellular Localisation And Function Of The Transmembrane 4 Superfamily Protein, PETA-3
Funder
National Health and Medical Research Council
Funding Amount
$322,911.00
Summary
Several years ago we identified the cell membrane protein PETA-3-CD151 based on its ability to cause activation of blood platelets, suggesting a role in thrombosis. More recently we found that the protein is present in a variety of tissues, although its distribution in those tissues is often restricted. It is abundant in a variety of cancer cells, and is present on tissue mast cells that mediate allergic reactions. PETA-3-CD151 forms complexes with molecules (integrins) that are associated with ....Several years ago we identified the cell membrane protein PETA-3-CD151 based on its ability to cause activation of blood platelets, suggesting a role in thrombosis. More recently we found that the protein is present in a variety of tissues, although its distribution in those tissues is often restricted. It is abundant in a variety of cancer cells, and is present on tissue mast cells that mediate allergic reactions. PETA-3-CD151 forms complexes with molecules (integrins) that are associated with cell adhesion and migration, and antibodies to this protein inhibit cell movement. Thus PETA-3-CD151 appears to be involved in cellular interactions that are critical for normal tissue development and function, and may be involved in several disease processes including cancer invasion and metastasis. The molecular basis of PETA-3-CD151 function is not understood and is the focus of this application.Read moreRead less