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.
Deciphering The Transcriptional Program That Instructs Lymphatic Endothelial Cell Fate.
Funder
National Health and Medical Research Council
Funding Amount
$541,950.00
Summary
Lymphatic vessels are essential to maintain fluid balance in most tissues of the human body. Further the lymphatic vasculature plays a central role during cancer and contributes to tumour metastasis. Despite this integral function in health and disease little is known about the molecular programs that coordinate gene expression to build a functional vasculature. This research project will address this gap in our knowledge and will open up new therapeutic avenues for lymphatic vascular disorders
Transplantation of pancreatic islets is the only cure for type 1 diabetes (T1D). Unfortunately, many of the transplanted islet cells die quickly due to an inadequate supply of blood. Herein, we investigate a novel cell surface protein for its role in islet and blood vessel survival and function. Furthermore, we use nanotechnology to provide said protein to the islet cells during transplantation for increased survival and function. Ultimately, this work may cure more patients with diabetes.
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.
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.
Understanding The Role Of The Atypical Cadherin Fat4 In Lymphatic Vascular Development
Funder
National Health and Medical Research Council
Funding Amount
$1,006,248.00
Summary
This application will define the role of a large cell adhesion molecule, FAT4, in lymphatic vascular development. By understanding how FAT4 functions in lymphatic vessels, we will gain insight to the mechanisms by which mutations in the gene that encodes this protein cause a human lymphoedema syndrome.
Targeting MicroRNA-driven Mesenchymal To Epithelial Transition To Suppress Prostate Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$741,831.00
Summary
Prostate cancer kills ~3,000 men per year in Australia. The development of metastasis is the major cause of prostate cancer-associated death and has limited treatment options. In this study, we will characterise the role of a group of molecules, termed microRNAs, in prostate cancer metastasis. We will also test whether targeting microRNAs using novel drugs termed antagomiRs is an effective strategy to inhibit metastasis and thereby improve prostate cancer mortality.
Mab Immunotherapies For Myeloid Leukemia Patients With Germline Or Somatic RUNX1 Mutations.
Funder
National Health and Medical Research Council
Funding Amount
$766,995.00
Summary
This proposal presents preliminary evidence and proposes to confirm that 2 cell surface molecules, CD11a (ITGAL) and IL3RA (CD123) are direct (probably repression) targets of RUNX1 in HSCs, and are dysregulated in RUNX1 mutated AML. Monoclonal antibody therapies that target these two surface molecules have already passed different clinical trial phases for different diseases. We plan to show these antibodies are effective in RUNX1 positive AML in preclinical models and then clinical trials.