The cell is the building block of life. This proposal focusses on the surface of the cell, the plasma membrane, and specialised structures called caveolae that are an abundant feature of animal cells. Altered caveolae are a feature of many human disease conditions. In this proposal we will address the function of caveolae. We will test the idea that proteins are released from caveolae into the cell when cells are stressed forming a novel signalling pathway disrupted in disease.
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.
Role Of Hsp40 And Hsp70 In Huntingtin Misfolding, Oligomerization And Inclusion Assembly
Funder
National Health and Medical Research Council
Funding Amount
$590,103.00
Summary
Huntington disease results from a mutation that causes the Htt protein to become abnormally sticky and form toxic clusters in neurons. Cells have natural defences to clustering with proteins called chaperones, which are exciting therapeutic targets. This project will examine how chaperones defend against toxic Htt clustering with cutting-edge imaging technologies. The knowledge gained will aid in designing therapeutic strategies that stimulate the defence processes and suppress the clusters.
Characterisation Of TIA Proteins In RNA Recognition And Stress Granule Formation
Funder
National Health and Medical Research Council
Funding Amount
$566,966.00
Summary
Cells in our body need to be able to respond to stresses such as heat, hypoxia, chemical stress or infection. In this project we investigate the specialized TIA proteins that have the job of protecting RNA in stressed cells. We will investigate the way TIA proteins recognize particular mRNA and form temporary protective clusters. By better understanding this process we will gain insight into the way in which cells are susceptible to damage in diseases including neurodegenerative disease.
DBHS Protein RNA Interactions In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$748,073.00
Summary
In cells involved in cancer, the interactions of DBHS proteins with each other, and with nucleic acids (eg RNA) are different to those in healthy cells. Only once we understand how DBHS proteins interact with some important RNA molecules, and how these interactions affect cell biology, can we begin to open up new pathways for therapy. This proposal aims at understanding and explaining this complex aspect of biology.
PCSK9 is an inhibitor of the receptor that is responsible for removing LDL (the bad cholesterol) from the circulation. We will study the molecular mechanisms that inhibit PCSK9 at the protein level. This study is needed to understand if drugs that inhibit PCSK9 will diminish the risk of developing heart disease in patients who do not respond well to existing treatments, for example those who already had a cardiovascular event or those with familial hypercholesterolemia.
How Lipids Affect Signalling Efficiencies In T Cells
Funder
National Health and Medical Research Council
Funding Amount
$472,882.00
Summary
A high fat diet can compromise the function our immune system. This project examines how lipids affect T cells. We propose that T cells from mice on a high fat diet can no longer respond to an immune challenge because the signalling processes that lead to activation are deregulated. We have established a new microscopy technique that allows us to measure the efficiency of signalling processes. We will use this method to identify which lipids contribute the most to T cell deregulation.
Targetting The CIB1-sphingosine Kinase Interaction In Oncogenesis
Funder
National Health and Medical Research Council
Funding Amount
$805,034.00
Summary
Sphingosine kinase is a protein involved in cancer development and progression. We have identified that the cancer-inducing activity of sphingosine kinase is controlled by another protein called CIB1 which itself appears involved in causing cancer by deregulating sphingosine kinase. In this study we will examine and target the interaction between sphingosine kinase and CIB1 as a potential therapeutic intervention in cancer.
Nuclear Retention-and-release Of RNA: A Naturally-occurring Mechanism For Controlling Gene Expression
Funder
National Health and Medical Research Council
Funding Amount
$428,753.00
Summary
The deliberate retention of messenger RNA in the nucleus is a newly-discovered biological mechanism used by cells to control which genes are made into proteins, and when. This is a fundamental process in health and disease. The project will employ cutting edge molecular and cellular techniques to discover the principles underpinning nuclear retention. These insights will allow the development of new methods to spatially and temporally control gene expression in diverse gene therapy applications.
Asymmetric Cell Divison In T Cell Development: Consequences For Immunity And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$642,608.00
Summary
Human health depends upon the development of an immune system that can effectively control infection without damaging normal tissue. In this project, we assess a new paradigm by which immune cell development might be controlled, in which an immune cell precursor divides in such a way that its two daughters inherit different molecular constitutents that subsequently regulate the adoption of different cell fate. The likely consequences of this phenomonon on immunity and cancer will be explored.