Regulation Of Ca2+/calmodulin Dependent Protein Kinase Kinase-2 By Phosphorylation
Funder
National Health and Medical Research Council
Funding Amount
$570,334.00
Summary
This project will study the regulation of an enzyme called CaMKK2, which plays a pivotal role in controlling a number of important biological functions including brain development, regulation of appetite, energy metabolism and blood pressure. Understanding how this enzyme is regulated may open new avenues for treating Type 2 diabetes, obesity, and cardiovascular disease.
Cells are building blocks of living things and require signalling pathways to communicate their functions. We discovered a new signalling pathway in flies that remarkably exists in yeast and plants to more complex organisms like mice and man. We will study this new signalling pathway in flies to find out how and why it communicates in cells. As flies and humans share similar genes, our studies will inform how this previously unknown signalling pathway functions from simple to complex organisms
Defining The Role Of A Palmitoylated Variant Of Sphingosine Kinase 1 In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$603,452.00
Summary
Sphingosine kinase is a protein that when dysregulated is involved in cancer development and progression. We have recently made a substantial breakthrough in this area by identifing a naturally occuring variant of sphingosine kinase that is constantly activated and has an enhanced ability to induce cancer. In this study we will examine and target this form of sphingosine kinase as a potential therapeutic intervention in cancer.
Sphingosine Kinase As A Target For Anti-cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$590,785.00
Summary
Sphingosine kinase is a protein involved in the development and progression of numerous types of solid tumors and leukaemias. We have recently made a major break-through by identifing how the cancer-inducing activity of sphingosine kinase is controlled. In this study we will target these control mechanisms to develop potential new anti-cancer therapies.
The dramatic increase in obesity and age-related metabolic disorders demonstrates the importance of gaining a better understanding of how cells and organisms regulate their energy stores. This project will identify novel molecular mechanisms that control the enzyme CaMKK2, which is a key regulator of whole-body energy metabolism. This will provide new opportunities to inform more effective strategies to tackle metabolic diseases, and improve health in an increasingly ageing population.
Characterisation Of Two New Kinases In The Hippo Tumour Suppressor Pathway
Funder
National Health and Medical Research Council
Funding Amount
$550,602.00
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 the Gish and Fray kinases control tissue growth by regulating the Hippo pathway. 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.
Why Is The Hijacking Of A Human Erythrocyte Signalling Pathway Essential For Malaria Infection?
Funder
National Health and Medical Research Council
Funding Amount
$510,890.00
Summary
Malaria drug resistance is spreading and the world needs cost-effective new drugs. We found 2 human enzymes, known targets of cancer chemotherapy, to be key for parasite survival in red blood cells. We aim to understand why these human proteins are crucial for the parasite and to identify new human proteins hijacked by malaria. This will open exciting options for antimalarial drug discovery: to harness funds invested in cancer drugs by targeting proteins with dual roles in cancer and malaria.
The Emergence Of Dead Enzymes As Signal Transducers And Therapeutic Targets
Funder
National Health and Medical Research Council
Funding Amount
$463,652.00
Summary
The cells within our bodies are constantly being replenished by new cells. Removal of old cells is typically fast and without fanfare. However, in some cases, cell death can be used to evoke an inflammatory response. My work examines the molecular details of how this happens and how we might advance our knowledge to develop novel drugs to prevent inflammatory diseases, such as Crohn's disease and psoriasis.
A New Master Adaptor Protein For Toll-like Receptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$869,288.00
Summary
Certain proteins on the surface of cells are able to sense danger and infection. These receptors use adaptor proteins to enable cells to respond appropriately. We have discovered a new adaptor that controls receptor signalling in inflammation. This new master adaptor likely has widespread roles in infection and inflammation. We aim to understand how this adaptor works, and to identify ways of blocking its actions. These studies may help us to control inflammation underpinning many diseases.