Treating and preventing painful fractures could be improved by strengthening cortical bone – the hard outer shell of all bones in the skeleton. We don’t know how cortical bone forms, but if we did, we could improve its strength. We have found that a brain-like network of cells inside the skeleton, called osteocytes, use a specific signal, called SOCS3, to make strong cortical bone. This study will find out how SOCS3 works and find new ways to make cortical bone strong and healthy.
This Program studies the mechanisms that control blood cell formation and how abnormalities play a role in leukaemia, a significant health problem worldwide. Despite some improvements, two major problems remain: controlling progression of leukaemia and relapse. The Program tackles these two major issues with the combination of studies of normal blood and leukaemia cell function, drug design and clinical trials ensuring a direct pathway from discovery to patient benefit.
Cellular Regulation Of Receptor Signalling And Cytokine Responses
Funder
National Health and Medical Research Council
Funding Amount
$859,288.00
Summary
Cell surface receptors and signalling pathways elicit the release of cytokines, or chemical messengers, to control inflammation, which is the body’s response to infection or danger. We have discovered a new signalling pathway that can turn off inflammation and help prevent inflammatory disease. Our studies will now define the molecular details of this pathway and show how new and existing drugs targeting this pathway can be optimally used to treat inflammation and cancer.
Genetic Validation Of Stat3 As A Tractable Pharmacological Target In Gastrointestinal Disease
Funder
National Health and Medical Research Council
Funding Amount
$586,964.00
Summary
Cancers of the stomach and the colon are a major health burden. One of the central signaling molecules that drives these cancers is called Stat3. Here we propose to use a novel strain of mice that allows us to experimentally dial down the amount of Stat3 protein and hence to predict how effective a future anti-Stat3 cancer drug will be.
Mechanisms Of Cytokine Independence During The Development Of Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$598,163.00
Summary
Signals from growth factors such as cytokines and hormones are required for cell survival. In their absence cells activate an in-built self-destruct process. Determining how cytokines regulate cell death will provide novel targets so that unwanted cells (like cancer cells) can be triggered to die and needed cells (such as brain cells) can survive.
Targeting The Interface Between Tumours And Their Microenvironment For The Treatment Of Gastrointestinal Cancers
Funder
National Health and Medical Research Council
Funding Amount
$785,045.00
Summary
This fellowship explores the synergistic interactions between intestinal cancer cells and the tumour microenvironment and which promote survival, expansion, migration and invasion as well as facilitating the development of resistance to anti-cancer therapy. Aided by the clinical expertise of my collaborators, my efforts are likely to yield translational outcomes, including the development of therapeutic IL-11 antagonists, and of a serum protein signature indicative of early stage gastric cancer.
Understanding The Role Of The IL11-Stat3-Th17 Signaling Axis In Gastrointestinal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$531,743.00
Summary
Gastrointestinal cancers arise when abnormal cells grow out from otherwise normal tissue. The resulting tumours contain a number of different types of cells, some of which help the tumour to grow, and some of which fight the tumour. We are interested in understanding how soluble molecules called cytokines influence the cells that promote tumour growth. In particular, we will explore the role of a cytokine called Interleukin-11 in these processes to identify novel cancer therapies.
Profiling Global Inflammatory Signatures For GPCRs In Human Macrophages
Funder
National Health and Medical Research Council
Funding Amount
$687,770.00
Summary
Macrophages are important white blood cells of the immune system. They trigger inflammatory responses to infection or injury, but prolonged inflammatory responses can lead to chronic diseases. In this project we aim to better understand how macrophages sense the outside environment, how external signals trigger inflammatory processes, how this leads to diseases such as autoimmune and inflammatory diseases, cancer and cardiovascular diseases, and how to control them with drugs.