Hormone-dependent Autophagy And Growth Signalling In Developmental Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$613,447.00
Summary
Cell death is essential for cell and tissue homeostasis and its dysregulation is associated with many diseases. We discovered a new mode of cell death that involves autophagy. We have now identified that TGF-? signalling pathway, which has roles in numerous human pathologies, is involved in autophagy-dependent cell death. Our proposed studies will further characterise this important signalling axis and study its significance in development, normal physiology and disease.
Regulation Of Mesenchymal To Epithelial Transitions By Netrin Receptors
Funder
National Health and Medical Research Council
Funding Amount
$646,995.00
Summary
The formation of 2D cellular sheets is important during development, tissue repair, and tumor growth. The mechanisms involved, however, remain largely unknown. Recent findings in the fly and in human cells suggest Frazzled/Neogenin receptors drive this process, by establishing polarised scaffolds in the cell. We will test this hypothesis using fly genetics and analysis of 3-dimensional culture of mammalian cells. Our results will help guide future therapies for human disease.
Role Of Snail Proteins In Mediating Intestinal Stem Cell Identity
Funder
National Health and Medical Research Council
Funding Amount
$646,698.00
Summary
The lining of the intestine is constantly renewed by stem cells which also contribute to replenishment of this layer following damage caused by trauma, infection or treatments such as chemotherapy. We are studying how a family of gene regulators called Snail proteins act to maintain stem cells in the gut. Snail proteins have also been found to be present at high levels in bowel tumours so we are examining their role in the genesis of tumours and resistance to common treatments.
Autophagy And Growth Signalling In Developmentally Programmed Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$594,133.00
Summary
Cell death is essential for normal development and deregulated cell death results in many diseases. We have recently discovered a potentially novel mechanism of developmental cell death that involves autophagy (a type of self-degradation). Our studies will now examine the mechanism of autophagic cell death and study how cell growth regulation is integrated in this pathway. This will provide us important knowledge into the complex role of autophagy in cancer.
Stem cell to differentiation occurs in a bi-directional fashion. Dedifferentiation which allows specialized cells to become stem cells has been found to be important in both cancer and regeneration. In this proposal, we will investigate the metabolic reprogramming of neuronal dedifferentiation. The findings from this study will better inform us on how to specifically target tumours that arise from dedifferentiation.
Wbp2, A New Regulator Of The Hippo Tumor Suppressor Pathway
Funder
National Health and Medical Research Council
Funding Amount
$585,860.00
Summary
The Hippo pathway is a key regulator of tissue growth. It was first discovered in vinegar flies and plays a similar role in mammals. We aim to define the mechanism by which a newly-identified Hippo pathway protein, Wbp2, functions to control growth. These studies will be performed in flies and confirmed in mammalian cells. Ultimately, our studies will shed light on how tissue growth is controlled, and have the potential to inform the way that we treat human cancers and tissue growth disorders.
The Hippo pathway is a key regulator of tissue growth. It was first discovered in vinegar flies and plays a similar role in mammals. We aim to define the mechanism by which the different transcription factors in the Hippo pathway operate to control tissue growth. These studies will be performed in flies and mammalian cell culture. Our studies will shed light on how tissue growth is controlled, and have the potential to inform the way that we treat human cancers and tissue growth disorders.
Identification Of Novel Tumour Suppressors In Ras-mediated Tumourigenesis
Funder
National Health and Medical Research Council
Funding Amount
$580,504.00
Summary
Cancer is a cooperative process, involving mutations in several genes. Activation of the signaling protein, Ras, contributes to ~30% of human cancers, but alone is not sufficient for tumour formation. The identification of cooperating Tumour Suppressors (TSs), and their analysis in the vinegar fly, Drosophila, mammalian cells and mouse models is key to understanding cancer progression and for the development of therapeutic regimes
Elucidating The Tumour Suppressor Behaviour Of FUBP1 In Glioma
Funder
National Health and Medical Research Council
Funding Amount
$940,780.00
Summary
Treatment strategies for patients with invasive brain tumours are based on a WHO tumour grading system. This system does not account for differences within tumour types, although these can significantly affect treatment outcomes. This project aims to investigate new drug therapies for specific brain tumour types, and to identify new prognostic markers for these tumours. These studies will lead to more individualised treatments, which is critical to improving patient survival and quality of life.
The Hippo Pathway, Neural Stem Cells And Brain Growth
Funder
National Health and Medical Research Council
Funding Amount
$363,137.00
Summary
During organism development, the brain grows to the right size without overgrowing. Neural stem cells are key regulators of brain size. We will define how the Hippo pathway crosstalks with nutrition-induced signals to control proliferation of neural stem cells and brain size. As well as producing important insights into normal growth, we will increase our understanding of brain diseases associated with aberrant brain growth, such as cancer.