Vesicular Trafficking Pathways Underpinning Neuronal Secretion And Survival
Funder
National Health and Medical Research Council
Funding Amount
$697,209.00
Summary
Plethora of diseases of the nervous system are caused by defects in vesicular trafficking including neurodegenerative diseases such as Alzheimer’s disease. I will explore the mechanisms underpinning synaptic vesicular trafficking using novel super resolution techniques and reveal the how secretory vesicles traffic to the plasma membrane, undergo exocytosis, and recycle. I will also explain how in the crowded environment of the presynaptic terminals, retrograde cargoes are transported back to the ....Plethora of diseases of the nervous system are caused by defects in vesicular trafficking including neurodegenerative diseases such as Alzheimer’s disease. I will explore the mechanisms underpinning synaptic vesicular trafficking using novel super resolution techniques and reveal the how secretory vesicles traffic to the plasma membrane, undergo exocytosis, and recycle. I will also explain how in the crowded environment of the presynaptic terminals, retrograde cargoes are transported back to the cell body thereby carrying survival signals.Read moreRead less
Molecular Mechanisms Of Protein Function And Pharmacology In Neuroscience And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$876,005.00
Summary
I have been a Fellow 19 years. It allows me to think strategically on a broader canvass. I am a world authority in endocytosis (how cells interact with the outside world), drug discovery, and protein function, in disciplines of neuroscience and cancer. The outcome will be the first human trials of endocytosis modulators in cancer and epilepsy. Secondly, we will use our new International ProCan Centre to produce a transformational rapid cancer diagnostic and provide new cancer treatment options.
Molecular Mechanisms And Pharmacology Of The Dynamins
Funder
National Health and Medical Research Council
Funding Amount
$883,375.00
Summary
His research focuses on the molecular mechanisms of synaptic transmission in the nervous system to: a) understand the basic science of nerve communication and b) develop drugs to control diseases of nerve terminals like epilepsy. The main focus is on proteins called the dynamins, which are self-assembling molecular machines acting in many intracellular functions. There are three dynamin genes: dynI, II and III with diverse functions in the different parts of the body.