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Novel Pathomechanisms And Therapeutic Targets In Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$340,038.00
Summary
This fellowship will provide new insight into the molecular processes underlying onset and progression of common brain conditions, including Alzheimer’s disease, frontotemporal dementia and motor neuron disease. Furthermore, new therapeutic targets for these diseases will be developed and tested in model systems, to facilitate future translation into clinical application, and to overcome the lack of treatments.
The Role Of CD1-restricted T Cells In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
The human immune system requires T cells for survival. Specialised populations of T cells exist that patrol the body and target unwanted lipid molecules expressed by bacteria or by cells that have become abnormal or cancerous. I will identify these T cells in human blood and skin and determine their role in protection against disease. I will explore the types of lipids molecules recognised by these T cells and use this information to help prevent human diseases.
Control Of Organ Size During Development And Disease By The Salvadore-Warts-Hippo Pathway
Funder
National Health and Medical Research Council
Funding Amount
$331,674.00
Summary
Cancer is a disease that results from the generation of too many cells. Many signalling pathways control cell number including the newly identified Salvador-Warts-Hippo pathway. We are studying the mechanisms by which activity of this pathway is controlled, using the vinegar fly as a model. Information obtained from our study will aid understanding of human cancer as cellular processes which go awry in cancer, such as cell proliferation and death, are highly conserved between flies and humans.
Elucidating The Mechanism And Function Of Cell Disassembly During Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
In humans, billions of cells will die daily in various organs as part of normal turnover and disease progression. During cell death, dying cells can disassembly in to smaller fragments, a process that could facilitate their removal, as well as mediate communication with other healthy cells. I aim to understand the machinery that control how dying cells can disassemble into smaller pieces and their function in influenza A infection.
The Molecular Mechanisms Of Abscission To Complete Cytokinesis
Funder
National Health and Medical Research Council
Funding Amount
$380,558.00
Summary
Cytokinesis is the final stage of cell division that produces two daughter cells. Incorrect localisation and modification of proteins that regulate this process cause cell division errors potentially leading to cancer. This project will characterise how key cytokinesis proteins co-operatively function to complete cytokinesis. This research will increase our understanding of the cell division errors that contribute to cancer development, ultimately identifying new targets for cancer therapy.
Melanoma is a devastating disease. We are investigating new ways to treat and cure this form of cancer. Specifically, we are identifying how the body’s immune system interacts with melanoma and exploring new ways to use one’s own immune cells to destroy the cancer. This is achieved by understanding the interplay between various immune cells during melanoma and current therapies. This knowledge allows us to manipulate the immune cells providing better treatment.