Neuronal communication relies on the process of exocytosis by which neurons release a neurotransmitter. Exocytosis is critical for 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 Munc18 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.
Regulation Of Glucose Uptake By Tropomyosins And Myosins
Funder
National Health and Medical Research Council
Funding Amount
$609,320.00
Summary
Defective import of glucose from the blood into fat and muscle is a key cause of adult-onset diabetes. We have identified a novel mechanical structure within muscle and fat cells defined by the protein tropomyosin that is involved in glucose import and potentially provides new targets for treatment of adult-onset diabetes and obesity.
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
Exploring The Role Of Arrcd4 In Extracellular Vesicle Biogenesis And Its Implications In Tissue Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$678,742.00
Summary
Most cells in the body release small packages known as extracellular vesicles (or EVs in short), which carry proteins and other cellular material. EVs transport important cellular messages required for the everyday function of cells and play crucial roles both in normal wellbeing and disease. This proposal will investigate how EVs are formed, how they select their protein content and how they contribute to the maturation of some cell types in the body.
Interaction Of Rab3D And Tctex-1 Is Required For Bone Resorption Through The Regulation Of Post-TGN Vesicle Trafficking
Funder
National Health and Medical Research Council
Funding Amount
$391,510.00
Summary
Osteoclasts are multinucleated cells responsible for the breakdown-resorption of bone tissue. Elevated osteoclast numbers and-or activities is a major hallmark of a number of debilitating Orthopaedic-related diseases including osteoporosis, arthritis, bone cancer and aseptic loosening. Among these, osteoporosis is endemic in Western society with an estimated 1 in 2 women and 1 in 3 men sustaining a fracture in their lifetime. It is well accepted that the transport of carrier vesicles containing ....Osteoclasts are multinucleated cells responsible for the breakdown-resorption of bone tissue. Elevated osteoclast numbers and-or activities is a major hallmark of a number of debilitating Orthopaedic-related diseases including osteoporosis, arthritis, bone cancer and aseptic loosening. Among these, osteoporosis is endemic in Western society with an estimated 1 in 2 women and 1 in 3 men sustaining a fracture in their lifetime. It is well accepted that the transport of carrier vesicles containing bone destructive enzymes is critical for bone resorption by osteoclasts. Although vesicle transport has been shown to be associated with microtubules (the cells skeleton), the molecular mechanisms responsible for vesicle and microtubule interaction are largely unknown. We have identified a novel interaction between Rab3D, a vesicle transport molecule, with Tctex-1, a microtubule-binding protein. We propose that the binding of Rab3D to Tctex-1 in osteoclasts is essential for the interaction of vesicles with microtubules and, hence, osteoclast function. The focus of this project is to further confirm our hypothesis by analysing the importance of this interaction in osteoclast-mediated bone resorption. The anticpated outcomes of the proposed project are: 1) Rab3D-mediated vesicle transport is directed via the microtubule network; 2) Interaction between Rab3D and Tctex-1 is cruical for the coupling of Rab3D-mediated vesicle transport to the microtubules; and 3)Disruption of the Rab3D-Tctex-1 interaction may impair bone resorption. Understanding the molecular mechanisms which regulate osteoclastic vesicle trafficking might therefore enable us to develop new strategies to specifically target and inhibit breakdown of bone tissue.Read moreRead less