Translating Membrane Proteins Into Therapeutics; From Bedside To Bench
Funder
National Health and Medical Research Council
Funding Amount
$9,466,000.00
Summary
Membrane proteins are the principal gatekeepers for control of cellular response, with G protein-coupled receptors (GPCRs) the largest family of cell surface proteins. These proteins are critically important for pathophysiological control, and are a major target for drug discovery. Nonetheless drug attrition due to lack of clinical efficacy remains high. We are combining cell biology, clinical management and drug discovery science to enable more effective therapeutic translation.
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.
Understanding The Major Class Of Cell Surface Drug Targets
Funder
National Health and Medical Research Council
Funding Amount
$7,595,840.00
Summary
G Protein-Coupled Receptors (GPCRs) form the largest family of receptors and drug targets in living organisms. Currently, the major reason that new drugs fail to reach the clinic is lack of appropriate drug effect (approx. 30%). Thus, we need a better understanding of how GPCRs work and how this relates to disease. Our Program addresses this knowledge gap, using GPCR models that are relevant to treatment of metabolic, inflammatory, cardiovascular and central nervous system disease.
This research program aims to gain a detailed understanding of the organisation of the cell surface at the molecular level. The cell surface is organised into domains with distinct functions. Visualisation of these domains, identifying their important components, and understanding how they form and function will have huge importance for therapeutic strategies aimed at combatting the changes associated with cell transformation in cancer and in other human diseases such as muscular dystrophy.
Central to improving the management of patients with cancer is an understanding of the molecular drivers of cancer. Based on our fundamental discoveries about the role of cell growth and perturbed cell signalling as drivers of cancer we will use the integration of molecular and imaging biomarkers with targeted therapies to translate this knowledge into better outcomes for cancer patients with defined molecular drivers of their cancer.
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$14,927,045.00
Summary
This program focuses on understanding the development of immunity during infection or inflammatory diseases using a broad array of techniques to dissect the function of various immune cell types and to explore the relationship between structure and function of important cell surface molecules. These studies will improve our ability to design new generation vaccines for combating infectious diseases, controlling cancer, or limiting autoimmune or inflammatory diseases.
The development of better ways to prevent and treat influenza infection will be a major step forward in lessening the impact of the virus in communities worldwide. We have assembled a research team of seven groups who will determine the ways in which the effects of influenza can be mitigated through an understanding of the factors which lead to severe disease, and how these can be lessened by novel vaccination and treatment strategies.
Mechanisms And Therapies In Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$8,360,700.00
Summary
Cardiovascular disease (CVD) claims 1 person every 10 min in Australia and causes 1 in 3 deaths worldwide. The molecular and cellular processes underlying atherosclerosis, vascular injury and thrombosis are highly complex and not well understood. A multifaceted approach is needed to effectively address these key challenges. This Program brings together world experts in these areas to interrogate gaps in our basic understanding of CVD, and to develop novel therapies for CVD patients by exploiting ....Cardiovascular disease (CVD) claims 1 person every 10 min in Australia and causes 1 in 3 deaths worldwide. The molecular and cellular processes underlying atherosclerosis, vascular injury and thrombosis are highly complex and not well understood. A multifaceted approach is needed to effectively address these key challenges. This Program brings together world experts in these areas to interrogate gaps in our basic understanding of CVD, and to develop novel therapies for CVD patients by exploiting new knowledge through integrated research.Read moreRead less
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$15,780,848.00
Summary
This program focuses on understanding the development of immune response to viruses and other infectious agents using a broad array of techniques to dissect the function of various immune cell types and to explore the relationship between structure and function of important cell surface molecules. These studies will improve our ability to design new generation vaccines for combating infectious diseases, controlling cancer, or limiting autoimmune diseases like diabetes.