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Molecular Targeting Of Innate Immune Signalling Pathways In Cancer And Auto-Inflammatory Diseases
Funder
National Health and Medical Research Council
Funding Amount
$753,300.00
Summary
To achieve an accurate molecular understanding of innate immune system receptor signalling, both intracellularly and in whole organisms, in health and disease. This knowledge will then be used to generate better treatments for the extensive range of human diseases that are caused or exacerbated by dysfunctional innate immune signalling, including Crohn's disease, psoriasis and cancer.
This application describes a research proposal that will achieve an accurate molecular understanding of innate immune system receptor signalling in health and disease. This knowledge will then be used to generate better treatments for the extensive range of human diseases that are caused or exacerbated by dysfunctional innate immune signalling, including Crohn's disease, psoriasis and cancer.
Targeting Mechanisms That Promote Cancer Cell Survival: Genetic And Chemical Approaches To Unravel The Molecular Mechanisms That Drive Tumour Formation, Develop Novel Molecular And Chemical Probes, And Discover New Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$751,854.00
Summary
One in three of us are likely to die from cancers. Groundbreaking research, including those made by Prof Huang, has revealed some of the reasons why cancers arise. An attractive way to transform the poor outcomes for cancer patients is to develop better medicines based on findings made by the basic researchers. Prof Huang leads a team at WEHI, including chemists, focused on developing better drugs that exploit knowledge garnered through such basic research in order to improve cancer treatment.
Improving Weight Loss Outcomes By Minimizing Adaptive Responses To Energy Restriction
Funder
National Health and Medical Research Council
Funding Amount
$621,458.00
Summary
While losing excess weight reduces the risk of lifestyle diseases such as diabetes, current weight loss strategies are ineffective for most, in part because the body mounts a ‘famine reaction’ that increases hunger, decreases metabolic rate and may also cause loss of muscle and bone mass. This research aims to determine the effects of the famine reaction on body composition, as well as to identify new ways to block the famine reaction with food, thereby enabling more people to attain and maintai ....While losing excess weight reduces the risk of lifestyle diseases such as diabetes, current weight loss strategies are ineffective for most, in part because the body mounts a ‘famine reaction’ that increases hunger, decreases metabolic rate and may also cause loss of muscle and bone mass. This research aims to determine the effects of the famine reaction on body composition, as well as to identify new ways to block the famine reaction with food, thereby enabling more people to attain and maintain a healthy body weight and composition.Read moreRead less
I am a cellular immunologist interested in the study of cytokines and other regulatory molecules in inflammatory and immune responses. One key area relates to the effect on sunlight on cell-mediated immunity.
I am a cancer biologist determining the mechanisms controlling growth and proliferation of cancer cells and use transgenic models of malignancy and genetic approaches to identify new therapies for targeting growth control in the treatment of cancer.
My research is directed to the prevention of diabetes, across the spectrum from type 1 to type 2 diabetes. It is based on understanding immune-inflammatory mechanisms that contribute to dysfunction and death of pancreatic insulin-secreting beta cells and tissue resistance to the action of insulin. I study these mechanisms in rodent models and in humans in the context of relevant environmental factors and genes, with the aim of manipulating them for therapeutic benefit.
Discovering How MicroRNAs And CircRNAs Control Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$763,845.00
Summary
Most cancers arise from epithelial cells, and most deaths from these cancers are due to the transition of the cancer to an invasive form, that can invade tissues and establish secondary cancers (metastases). Our work will focus on understanding how recently discovered gene regulators, called microRNAs and circular RNAs, control changes in cancer cells to allow them to progress to invasive, metastatic forms and use this knowledge to find ways to block the process.
Platelets are key blood elements that are essential for the prevention of bleeding in response to injury or infection. Overactive or spontaneously active platelets cause thrombosis and blood clot formation. My laboratory has identified new physiological pathways of activation of platelet metalloproteinases, the enzymes that regulate surface levels of the prothrombotic platelet receptors. By understanding this mechanism of receptor regulation, we can uniquely target platelet receptors in people w ....Platelets are key blood elements that are essential for the prevention of bleeding in response to injury or infection. Overactive or spontaneously active platelets cause thrombosis and blood clot formation. My laboratory has identified new physiological pathways of activation of platelet metalloproteinases, the enzymes that regulate surface levels of the prothrombotic platelet receptors. By understanding this mechanism of receptor regulation, we can uniquely target platelet receptors in people with prothrombotic pathologies.Read moreRead less
The genetic material is packaged in the cell nucleus with histone proteins. Modifications of histones determine if a particular area of the genome is active or repressed. We are investigating the roles of a family of histone modifying proteins, the MYST proteins. Mutations in these proteins cause intellectual disability and cancer. The research program will provide knowledge that may become the basis for the development of drugs for the treatment of cancer and neurodegenerative disorders.