Roles Of Chaperone Proteins And Phosphorylation Events In Activity Of The Dioxin Receptor
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Polycyclic aromatic hydrocarbons (PAHs) are prevalent environmental pollutants which cause a wide range of deleterious health effects. Metabolic activation of PAHs occurs primarily through a set of intracellular oxidising enzymes which are induced by the presence of PAHs. The dioxin receptor is a gene regulatory protein that is pivotal in the metabolic pathway as it links the presence of contaminating PAHs to induction of the enzymes responsible for initiating their metabolism. While in many cas ....Polycyclic aromatic hydrocarbons (PAHs) are prevalent environmental pollutants which cause a wide range of deleterious health effects. Metabolic activation of PAHs occurs primarily through a set of intracellular oxidising enzymes which are induced by the presence of PAHs. The dioxin receptor is a gene regulatory protein that is pivotal in the metabolic pathway as it links the presence of contaminating PAHs to induction of the enzymes responsible for initiating their metabolism. While in many cases PAHs are oxidised to compounds which are water soluble and excretable (and therefore harmless), some substrates, such as benzo[a]pyrene found in cigarette smoke, can become inadvertently transformed into carcinogens. Other pollutants such as dioxin are resistant to metabolism and are extremely toxic. We have an ongoing interest in deciphering the biochemical pathways which lead to aberrant metabolism, and as such are studying the mechanistic role of the dioxin receptor in this process.Read moreRead less
Centrosome Overduplication Contributes To Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$495,010.00
Summary
Cancer can be simplistically thought of as a disease of cell growth and division. In order to improve current treatment regimes and identify new ones, the underlying mechanisms controlling cell proliferation need to be fully understood. By defining these regulatory mechanisms, targets for current chemotherapeutic agents can be further characterised and new ones identified. This will lead to the targeted developments of new classes of drugs which can be used in the fight against cancer.
Identification And Function Of Posttranslational Modifications In The Dioxin Receptor/Arnt Transcription Factor
Funder
National Health and Medical Research Council
Funding Amount
$448,500.00
Summary
Polycyclic aromatic hydrocarbons (PAHs) are prevalent environmental pollutants which cause a wide range of deleterious health effects. Metabolic activation of PAHs occurs primarily through a set of intracellular oxidising enzymes which are induced by the presence of PAHs. The dioxin receptor is a gene regulatory protein that is pivotal in the metabolic pathway as it links the presence of contaminating PAHs to induction of the enzymes responsible for initiating their metabolism. While in many cas ....Polycyclic aromatic hydrocarbons (PAHs) are prevalent environmental pollutants which cause a wide range of deleterious health effects. Metabolic activation of PAHs occurs primarily through a set of intracellular oxidising enzymes which are induced by the presence of PAHs. The dioxin receptor is a gene regulatory protein that is pivotal in the metabolic pathway as it links the presence of contaminating PAHs to induction of the enzymes responsible for initiating their metabolism. While in many cases PAHs are oxidised to compounds which are water soluble and excretable (and therefore harmless), some substrates, such as benzo[a]pyrene found in cigarette smoke, can become inadvertently transformed into carcinogens. Other pollutants such as dioxin are resistant to metabolism and are extremely toxic. We have an ongoing interest in deciphering the biochemical pathways which lead to aberrant metabolism, and as such are studying the mechanistic role of the dioxin receptor in this process.Read moreRead less
An Analysis Of The Lyn Tyrosine Kinase In The Regulation Of Hematopoiesis And Tumourigenesis.
Funder
National Health and Medical Research Council
Funding Amount
$381,000.00
Summary
The Lyn kinase is an enzyme that is involved in relaying information across the cell membrane. It is a member of a family of genes that have been implicated in tumour development. Lyn is expressed in blood cells and it is involved in a variety of immunological responses. To further our understanding of the role of this enzyme in the context of the whole animal, we have generated two strains of mice, one that is unable to make Lyn protein (Lyn-deficient mice) and one that expresses an activated f ....The Lyn kinase is an enzyme that is involved in relaying information across the cell membrane. It is a member of a family of genes that have been implicated in tumour development. Lyn is expressed in blood cells and it is involved in a variety of immunological responses. To further our understanding of the role of this enzyme in the context of the whole animal, we have generated two strains of mice, one that is unable to make Lyn protein (Lyn-deficient mice) and one that expresses an activated form of the Lyn enzyme (Lyn-up mice). Our previous studies have shown that Lyn-deficient mice have enhanced blood cell formation (hematopoiesis) and develop white blood cell tumours with age, whereas Lyn-up mice show no propensity to develop tumours. In this study we will examine in detail the role that Lyn plays in blood cell formation and tumourigenesis, and we will identify the pathways that underlie the phenotypes in Lyn-deficient mice. On completion of these studies we will have catalogued the molecules and pathways regulated by Lyn, and have an understanding of how Lyn functions in regulating development of specific populations of blood cells, and in suppressing or promoting tumour development.Read moreRead less
A Dendritic Cell Subset Targeting Approach For Defining Immune Function And Tailoring Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$692,753.00
Summary
Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response genera ....Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response generated. Effectively, we aim to tailor immune responses to fight a particular bacteria, virus, parasite, or even cancer cells. The current proposal will extend the number of antibodies we test for their ability to generate tailored immunity. We will examine a number of new molecules for their ability to shuttle foreign material to dendritic cells and their ability to stimulate immune responses. Next, we will test these homing devices as vaccines and their ability to prevent or treat cancer. Our aim is to develop a robust, highly efficient, generic, vaccination approach for cancer immunotherapy.Read moreRead less
Functional Analysis Of Relapse Predictive Genes In Wilms Tumour
Funder
National Health and Medical Research Council
Funding Amount
$571,311.00
Summary
Wilms tumor is a paediatric kidney cancer, the most common abdominal tumour seen in children. About 20% of Wilms tumour patients have relapsing fatal tumours. We have found two genes that mark tumours which relapse: C-EBPB and CLK1. Characterization of C-EBPB and CLK1 will yield new information regarding the mechanisms underlying development and progression of Wilms tumours, leading to improved treatment for Wilms tumor patients. Both C-EBPB and CLK1 may also have roles in other human cancers.
Reconceptualising Health Promotion: The Role Of Values, Ethics And Evidence In Obesity Intervention.
Funder
National Health and Medical Research Council
Funding Amount
$485,103.00
Summary
Obesity and overweight are public health priorities. Population-level programs, campaigns and regulations are required to prevent and reduce obesity. How should these interventions proceed? What is effective? What is ethical? How can we avoid doing harm? At present, we do not know. By studying current interventions in detail, and working with experts and practitioners in health promotion and ethics, this project will develop a new framework to guide overweight and obesity intervention in future.
Every cell in our body has an intrinsic orientation that is controlled by a universal set of genes known as polarity genes. Loss of this orientation is a common and early feature of cancer. We have identified the gene Scribble as a gene that controls cell orientation and is essential to prevent the development of prostate cancer. We propose experiments to discover how Scribble controls prostate cancer and whether it can be used to better predict outcome for prostate cancer patients.