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.
Location, Location, Location: Sub-cellular Specific Targeting Of JNK As A Novel Therapy In Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$633,755.00
Summary
The ‘triple negative’ breast cancer subtype is the most aggressive form of breast cancer, and unlike other subtypes, there are no drugs to specifically this subtype. While many potential drug targets have been identified, they cannot be utilised clinically because of other beneficial roles within the body. We are now deploying our innovative experimental platforms to specifically target the tumour promoting functions of a protein known as ‘JNK’, whilst retaining its beneficial functions.
How Do Mutations In Autophagy Receptors Cause FTD And ALS?
Funder
National Health and Medical Research Council
Funding Amount
$566,966.00
Summary
As cells age the "garbage disposal" process within cells slows down, becoming less functional. In inherited forms of dementia the genes involved often code for damaged proteins that "clog up" the disposal system or directly affect the “garbage men”. These defective garbage men genes include SQSTM1/p62, OPTN, VCP and UBQLN2. We will determine how these defective genes lead to build up of garbage in neuronal cells and how leads to disease.
Diabolic Regulation Of Macrophage Cell Death Pathways By Legionella
Funder
National Health and Medical Research Council
Funding Amount
$616,912.00
Summary
The bacterial pathogen Legionella causes fatal pneumonia in immuno-compromised humans. Infections depend on a sophisticated secretion machinery that translocates hundreds of proteins into host cells. These proteins subvert several essential defense pathways, including cell death signals. This project will highlight how Legionella interfere with cell death pathways and control the survival of its host cells. These findings will facilitate the development of promising new anti-bacterial agents.
The Characterization Of A Novel Pseudokinase Regulator Of Platelet Formation
Funder
National Health and Medical Research Council
Funding Amount
$372,965.00
Summary
Mammalian cells contain a complex switchboard, which directs the cell to grow, die, multiply or move in response to external cues. When communication breaks down within the cell, diseases arise. Our studies are directed towards identifying the molecules that comprise the switchboard which directs blood cell formation. A detailed understanding of the regulators of blood cell formation will equip us with a sound starting point for designing drugs to ameliorate blood diseases.
Dissecting The Role Of Selective Insulin Resistance In Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$980,624.00
Summary
Insulin resistance is a clinical condition where insulin, secreted from the pancreas in response to meals, is unable to fulfill its normal function. It is intimately linked to obesity and associated diseases - type 2 diabetes, cancer and cardiovascular disease. This proposal examines mechanisms contributing to insulin resistance and how insulin resistance leads to disease. We will identify drug targets with improved specificity and lead to novel insight into the risks of current treatments.
New Mediators Of GPCR-growth Factor Receptor Transactivation
Funder
National Health and Medical Research Council
Funding Amount
$607,842.00
Summary
Hormones bind to receptors on the surface of cells. Receptors can modify each other’s function and this “cross-talk” is important for the receptors for a peptide hormone (termed angiotensin) and a growth factor receptor (EGFR), which are major regulators of the cardiovascular system. We have identified a number of mediators of the angiotensin-EGFR crosstalk and this current grant aims to use molecular and cellular and in vivo approaches to examine the molecular basis of their actions.
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.
Dissecting Rapamycin Sensitive And Insensitive Effects Of MTOR
Funder
National Health and Medical Research Council
Funding Amount
$1,183,241.00
Summary
All cells possess machinery that can sense nutrient availability and trigger cell growth and nutrient storage pathways. However, nutrient oversupply is detrimental to health. Recently, it was shown that drugs that inhibit the nutrient sensors have life extending effects. Our laboratory has discovered a novel mechanism by which these drugs might be mediating these beneficial effects that could change the way we think about the beneficial effects of these drugs and their mode of action
New Insights Into Mechanisms That Coordinate Kinase Signalling And Molecular Motors In Mitosis: A Novel Role For The Protein Scaffold WD-repeat Protein 62 (WDR62).
Funder
National Health and Medical Research Council
Funding Amount
$529,122.00
Summary
Proteins perform all functions within a cell. Commonly, different proteins are assembled into large complexes to carry out processes, such as cell division, with significant implications for human health. Scaffold proteins facilitate the proper assembly of large complexes but are a poorly understood protein class. We will perform molecular analysis of a newly discovered scaffold, WDR62, to define how it drives cell division and reveal how this can be exploited to develop new anti-cancer drugs.