Uncover How Myosin-6 Underpins The Ca2+-dependent Recruitment Of Secretory Vesicles To The Cortical Actin Network
Funder
National Health and Medical Research Council
Funding Amount
$559,295.00
Summary
Neuronal communication relies on the process of exocytosis by which neurons release a neurotransmitter. Exocytosis underpins processes such as the simplest muscle movement to complex tasks such as learning and memory, and is altered in several neurodegenerative pathologies. We will investigate how the protein Myosin-6 controls exocytosis. This research will be important for understanding how neurons communicate in health and disease and will be relevant to other processes such as insulin release ....Neuronal communication relies on the process of exocytosis by which neurons release a neurotransmitter. Exocytosis underpins processes such as the simplest muscle movement to complex tasks such as learning and memory, and is altered in several neurodegenerative pathologies. We will investigate how the protein Myosin-6 controls exocytosis. This research will be important for understanding how neurons communicate in health and disease and will be relevant to other processes such as insulin release in diabetes.Read moreRead less
Targeting The Synaptic Actin Cytoskeleton In Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$840,741.00
Summary
Dementias have become one of the fastest growing sources of major disease burdens in developed countries with about one in fifteen Australians older than 65 being affected. We will study how pathological stimuli disrupt nerve cell connections in the brain by impacting on the cellular architecture at these connections. Findings from our study will provide profound new insights in how nerve cells communicate with each other and how this communication is breaking down in disease.