Mechanobiology Of Epithelial Homeostasis In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$876,005.00
Summary
Epithelial tissues, such as the lung, fundamentally protect the body from its external environment. For this, they must detect and respond to danger. My work has discovered a new biological system where cells monitor changes in mechanical forces as a sign of danger. Diseases such as inflammation and cancer occur when this detection system fails. This Fellowship builds on my lab’s pioneering work to understand how force is used to sense danger, and how disease occurs when it goes awry.
The cell types of the blood, such as red and white blood cells, are produced in the bone marrow from a rare stem cell. The stem cell uses a handful of important master-regulatory genes that act in a hierarchy to promote the blood cell differentiation process. This research aims to understand how these master-regulators function in isolation and together in producing the white blood cells that are required for our immune response to microbes, vaccination and to prevent cancer.
Niche Regulation Of Normal And Malignant Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Hematopoietic stem cells (HSC) reside in the bone marrow (BM) and make all the cells of the blood system. We study molecules in the BM regulating normal HSC to helping them survive chemotherapy. This means cancer patients should suffer less side-effects from their therapy. Some of these molecule also help leukaemia stem cells (LSC) resist chemotherapy. Inhibitors may a) reduce patient mortality caused by chemotherapy and b) sensitise LSC to chemotherapy enabling long-term cure.
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.
Roles Of Signalling In The Control Of Immune System Development, Function And Pathology
Funder
National Health and Medical Research Council
Funding Amount
$737,936.00
Summary
This research focuses on the function of the NF-?B and MAP kinase biochemical pathways in immune cells. Both pathways regulate gene expression controlling the development, division, viability and function of immune cells. Consistent with these roles, impaired regulation of these pathways contributes to many immune related diseases. My goal is to utilize information learnt about these pathways and apply it to developing therapies for treating diseases afflicting the immune system.
Regulation Of The Haemostatic Activity Of Plasma Von Willebrand Factor
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
Our genes encode proteins that perform the tasks of life. Most proteins are chemically modified after they are made to control how, when, and where they function. Prof Hogg discovered a new chemical modification of proteins that is important in health and disease. He will apply this discovery to develop new diagnostics and therapies for heart attacks and stroke. Prof Hogg is one of the few Australians to take new diagnostics and therapies developed in the lab to evaluation in patients.
Dr Gilchrist is a reproductive biologist studying factors that regulate the intrinsic quality of unfertilised eggs. He has developed a new form of hormone-free infertility treatment which he will test in a clinical trial over the next 5 years.
My major goal for the past 20 years has been to understand how hormones such as gastrin stimulate the development of gastrointestinal cancer. One approach has been to define the intracellular signalling pathways by which gastrins enhance cell growth. Our discovery that iron is essential for the biological activity of gastrins may allow the development of novel therapies for colon cancer and iron overload.
Investigating A Potential New Treatment For Stroke
Funder
National Health and Medical Research Council
Funding Amount
$878,522.00
Summary
Blood clots blocking blood flow to the brain (stroke) are a major cause of death and disability. Safety concerns limit approved therapies to a small subset of patients, highlighting an urgent need for safer, more effective drugs. Our studies show that inhibitors of the enzyme PI3Kbeta increase blood clot permeability, increasing clot ‘dissolvability’, without increased bleeding. This raises the possibility that PI3Kbeta inhibitors may represent a safe and effective adjuvant therapy for stroke.
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.