Defining The Role Of The Ubiquitin Protein Ligase Nedd4 In Vascular Development.
Funder
National Health and Medical Research Council
Funding Amount
$702,166.00
Summary
Blood and lymphatic vessels are vital components of the cardiovascular system. Abnormalities in the growth and development of these vessels are associated with human disorders including cancer and cardiovascular disease. The focus of this application is to characterise the role of the ubiquitin protein ligase Nedd4 in vascular development, with the aim of identifying targets to which novel therapeutics for the treatment of blood and lymphatic vascular diseases could be generated.
Regulation Of VEGFR Trafficking And Signal Transduction By The Ubiquitin Ligase Nedd4
Funder
National Health and Medical Research Council
Funding Amount
$388,347.00
Summary
Our recent work has discovered that the Nedd4 gene is crucial for the growth and development of blood vessels and lymphatic vessels. Our data suggest that Nedd4 controls vessel growth by regulating the levels and signalling activity of the key vascular growth factor receptors VEGFR-2 and VEGFR-3. The goals of this proposal are to define precisely how Nedd4-1 regulates the activity of these receptors and how VEGFR signalling could be better targeted to treat vascular disorders.
Understanding How GATA2 Controls Lymphatic Vessel Valve Development
Funder
National Health and Medical Research Council
Funding Amount
$697,942.00
Summary
Mutations in the GATA2 gene cause human lymphoedema as a result of the crucial role that GATA2 plays in controlling the expression of genes important for building functional lymphatic vessels. Here we aim to gain a complete picture of the cellular and molecular events that are controlled by GATA2 in lymphatic vessels and in particular, in lymphatic vessel valves.
Defining The Role Of GATA2 In Lymphatic Vascular Development As A Means To Understanding How GATA2 Mutations Predispose To Human Lymphedema.
Funder
National Health and Medical Research Council
Funding Amount
$718,890.00
Summary
We have discovered that mutations in the transcription factor GATA2 result in human primary lymphedema, a debilitating disorder resulting from the failure of lymphatic vessels to return tissue fluid to the bloodstream. The goal of this application is to define the role of GATA2 in lymphatic vessels, in order to understand how GATA2 mutations cause lymphedema. Ultimately, we aim to identify targets to which desperately needed therapeutics for the treatment of lymphedema could be generated.
Characterising Signals Important For Lymphangiogenesis During Development And Disease.
Funder
National Health and Medical Research Council
Funding Amount
$604,938.00
Summary
Lymphatic vessels are a vital component of the cardiovascular system. Abnormalities in the growth and development of lymphatic vessels are associated with human disorders including cancer, lymphoedema and inflammatory diseases. The focus of this application is to characterise signals that direct the construction of lymphatic vessels, with the aim of identifying targets to which novel therapeutics for the treatment of lymphatic vascular diseases could be generated.
Role For Zinc And ZIP2 In The Action Of Nitric Oxide And In Vascular Protection Against Cigarette Smoke And Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$685,941.00
Summary
The NO/cGMP signalling pathway, which is central to cardiovascular physiology and protection against disease, is only fully effective when there are adequate levels of zinc in the vascular endothelium. This is especially important where zinc stores are depleted (elderly, smokers, diabetics and kidney disease). There is an urgent clinical need to implement strategies to monitor vascular Zn status. This application will explore the underlying science and translate these to the clinic.
A New Target For Allergic Inflammation: The Sphingolipid Pathway
Funder
National Health and Medical Research Council
Funding Amount
$588,617.00
Summary
Collectively, allergic diseases contribute immensely to the burden of health care in Australia. Notably, allergic reactions are symptomatic responses to a normally innocuous environmental antigen. Allergic diseases include asthma, hay fever, food allergy, anaphylaxis, insect sting and drug allergy. This project aims to understand the underlying mechanisms associated with allergic reactions such that it may aid in the identification of novel targets for the development of new treatments.
Preclinical Development Of TLR Signalling Inhibitors For Prevention Of Preterm Labour And Fetal Inflammatory Injury
Funder
National Health and Medical Research Council
Funding Amount
$690,821.00
Summary
Preterm birth affects 8% of Australian births and is a major cause of infant and child health problems. Therapies to prevent or delay prematurity are urgently required. This study will investigate new drugs that suppress the triggers of preterm labour. We will evaluate drug effects in mice and human placental tissue, to demonstrate safety and fetal protection from inflammatory injury that occurs with prematurity. Successful completion of the study is expected to lead to clinical trials in women.
Multistage Vaccines For The Prevention Of Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$884,290.00
Summary
Almost two million people die from tuberculosis (TB) each year. The current vaccine, BCG, is ineffective at controlling TB and the type of immune response needed to protect against the disease is poorly understood. We have discovered new antigens of the TB bacterium, and we will combine them with novel delivery strategies to develop new TB vaccines. We will also determine the type of immune response needed to protect against TB, which will aid progression of vaccines into clinical trials.
Inflammatory Cytokines As Causal Agents In Peri-conception Programming Of Offspring Health
Funder
National Health and Medical Research Council
Funding Amount
$604,046.00
Summary
Events at conception set the trajectory of fetal developmental that will determine health of children after birth and in later life. Susceptibility to obesity and metabolic conditions is established at this very early time. This project will define the molecular signals affecting the embryo in the event of maternal or paternal infection, diet and stress. The results will help us devise health advice for intending parents to improve child health and help prevent onset of metabolic disorders.