Structural Biology Of Cytokine Receptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$3,988,996.00
Summary
This Program will be focused on a group of protein hormones and their receptors, implicated in blood cell cancers and inflammatory diseases and for which current treatments are inadequate. We will determine the mechanism of receptor activation and in particular will seek to link different forms of receptor assembly to different functions. This information will help us develop new drugs with more specificity for certain hormone functions and thus less side-effects.
Malaria: From Target Identification And Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$5,276,440.00
Summary
The team brings together a number of experts in various aspects of malaria, vaccines and drug design to develop new therapeutic approaches to control of one of the world�s major infectious diseases. Recent developments such as the complete sequence of every malaria gene provides an unparalleled opportunity to use a number of powerful new techniques in biology to identify vulnerabilities in the parasite that may be targeted. Members of the team include Professor von Itzstein who was responsible f ....The team brings together a number of experts in various aspects of malaria, vaccines and drug design to develop new therapeutic approaches to control of one of the world�s major infectious diseases. Recent developments such as the complete sequence of every malaria gene provides an unparalleled opportunity to use a number of powerful new techniques in biology to identify vulnerabilities in the parasite that may be targeted. Members of the team include Professor von Itzstein who was responsible for the design of the anti-flu drug Relenza, Professor Ross Coppel who is a pioneer in the application of molecular biology to the study of malaria, and Drs Cooke and Plebanski, exciting and talented young scientists who already have made highly significant and important contributions to our understanding of how malaria parasites function and cause disease. Success in this research program has the capacity to save millions of lives each year by preventing the deadly toll of this important human scourge.Read moreRead less
Antibodies are made by B-cells and are essential for a functional immune system. B cells circulate in the body, and, when they encounter an invader, they mature into antibody-producing cells (ASC). A small proportion of the cells become “memory” cells with the potential to become ASC should the same infection occur in the future. This is the basis of vaccination. This program aims to understand how a B cell changes into an ASC. We aim eventually to be able to improve vaccines and understand dise ....Antibodies are made by B-cells and are essential for a functional immune system. B cells circulate in the body, and, when they encounter an invader, they mature into antibody-producing cells (ASC). A small proportion of the cells become “memory” cells with the potential to become ASC should the same infection occur in the future. This is the basis of vaccination. This program aims to understand how a B cell changes into an ASC. We aim eventually to be able to improve vaccines and understand diseases such as allergy, lupus, arthritis and leukaemia to develop novel therapies.Read moreRead less
The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammator ....The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammatory or allergic disease, such as arthritis or asthma. This team of researchers from the Hanson Institute in Adelaide, combining expertise in molecular and cell biology, protein chemestry, structual biology and animal models, has been working together for over 10 years, investigating the molecular mechanisms involved in controlling the formation and activities of blood vessels and white blood cells. This program seeks to further that understanding, and to develop drugs that have the potential of ameliorating the inflammatory condition.Read moreRead less
This program of research is firmly focussed on the basic mechanisms involved in normal functioning of cells and tissues, followed by a step by step process to understand the abnormal or the diseased. The disease states we are investigating involve the blood and blood vessels, and when there is malfunction it may contribute to conditions as diverse as atherosclerosis, thrombosis, inflammation and cancer. The program thus addresses the fundamentals of diseases which are responsible for most deaths ....This program of research is firmly focussed on the basic mechanisms involved in normal functioning of cells and tissues, followed by a step by step process to understand the abnormal or the diseased. The disease states we are investigating involve the blood and blood vessels, and when there is malfunction it may contribute to conditions as diverse as atherosclerosis, thrombosis, inflammation and cancer. The program thus addresses the fundamentals of diseases which are responsible for most deaths in our society. We will use technology which is proven to provide precise information, the molecular and biochemical processes responsible for cell function (or malfunction). However in each individual project there will be a clear path to a clinical use, diagnostic or therapeutic. Indeed in a number of the components of the program there are already potential treatments and diagnostics in development and trial.Read moreRead less
This established team of investigators will research into the molecular control of white blood cell formation and function, using a multidisciplinary, team approach to fundamental biological questions with a focus on potential clinical and commercial outcomes. The team will also attempt to identify new validated targets for therapeutic intervention by using both forward and reverse genetic approaches in mice coupled with complete phenotypic analyses of the blood cell system.
Molecular Regulation Of Blood Cell Production And Function
Funder
National Health and Medical Research Council
Funding Amount
$18,333,174.00
Summary
The blood-forming system is an intricately controlled balance of cell proliferation, maturation and functional activity that is essential for oxygen transport throughout the body, blood clotting, and effective immune responses. Defining the genes and molecules that orchestrate blood cell production and function is crucial, not only for understanding the role of blood in health, but for establishing the bases of blood cell disorders such as autoimmunity and leukaemia, and for devising new clinica ....The blood-forming system is an intricately controlled balance of cell proliferation, maturation and functional activity that is essential for oxygen transport throughout the body, blood clotting, and effective immune responses. Defining the genes and molecules that orchestrate blood cell production and function is crucial, not only for understanding the role of blood in health, but for establishing the bases of blood cell disorders such as autoimmunity and leukaemia, and for devising new clinical strategies for fighting these lethal diseases. This program is conducted by a large, established team of investigators that have made world-class contributions to understanding blood cell formation and function for more than 30 years. Their work established the modern era of molecular haematology via discovery and analysis of blood cell hormones (colony-stimulating factors or CSFs), their receptors and intracellular mediators, which resulted in development of treatments for millions of cancer patients. The program is a multidisciplinary, team approach to fundamental biological questions with a focus on potential clinical and commercial outcomes involving collaborations with clinical medicine and the pharmaceutical industry. Research will focus on meshing novel genetic approaches in mice with translation studies in humans to identify new validated targets for therapeutic intervention in blood cell diseases, as well as building on the team s expertise in cytokine action with emphasis on the actions of the suppressor of cytokine signalling (SOCS) molecules, a key family of proteins that controls cytokine actions.Read moreRead less