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
Atherosclerosis: Lipoproteins, Cell Biology And Vascular Physiology
Funder
National Health and Medical Research Council
Funding Amount
$10,461,682.00
Summary
The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obe ....The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obesity is associated with a state of chronic inflammation of the blood vessels. This inflammation not only accelerates the development of heart disease but also makes people who have cholesterol accumulated in their arteries more likely to actually have a heart attack. And a fourth is the fact that the lining of blood vessels does not function normally in overweight and obese people. This loss of normal function is a very early sign of future heart disease. These factors are closely inter-related, with the “good” HDL playing a central role in removing cholesterol from arteries, inhibiting arterial inflammation and promoting normal function and repair of the lining of blood vessels. HDL is complex, consisting of a mixture of several subpopulations of particles that vary in shape, size and composition. Furthermore, these HDL subpopulations are continually remodelled as they circulate in blood in reactions promoted by a number of blood factors that change their size and composition. A major component of the research to be conducted in this program relates to understanding how the HDL subpopulations in human blood are regulated and how they protect against heart disease. The applicants have already made major contributions to understanding the functions of the “good” HDLs, how they take cholesterol out of cells in the artery wall, how they inhibit inflammation of the arteries and how they improve the function of the artery lining. We propose to extend these studies to establish how these protective functions can be enhanced, to find out which of the HDL subpopulations are most protective, and to identify how to increase the most protective HDLs in people at risk of heart disease.Read moreRead less
A Program Of Research Addressing The Transition From Health To Advanced Cardiovascular Disease.
Funder
National Health and Medical Research Council
Funding Amount
$13,017,057.00
Summary
Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treat ....Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treatments that prevent heart attack, heart failure and other serious consequences of atherosclerosis.Read moreRead less
The Biology & Therapeutic Manipulation Of Lymphatic Vessels In Cancer & Lymphedema
Funder
National Health and Medical Research Council
Funding Amount
$2,589,101.00
Summary
This proposal brings together a team of researchers from diverse backgrounds who have already made important discoveries about the molecular control of the lymphatic system in normal physiology and cancer. The lymphatic vasculature consists of a network of vessels in organs and tissues that is critical for the regulation of tissue fluid volume and immune function. The lymphatics are also important for the metastatic spread of cancer, as they provide a route by which tumour cells spread to distan ....This proposal brings together a team of researchers from diverse backgrounds who have already made important discoveries about the molecular control of the lymphatic system in normal physiology and cancer. The lymphatic vasculature consists of a network of vessels in organs and tissues that is critical for the regulation of tissue fluid volume and immune function. The lymphatics are also important for the metastatic spread of cancer, as they provide a route by which tumour cells spread to distant sites in the body, and for lymphedema, a condition in which lymphatic dysfunction leads to swelling of tissues. This program will explore the molecular mechanisms that control the growth and differentiation of the lymphatic vessels. It will greatly enhance our understanding of lymphatic vessel growth (lymphangiogenesis) and generate a range of reagents for stimulating or inhibiting this process. These reagents will be tested in animal models for their capacity to modulate lymphatic function in the context of cancer and lymphedema.Read moreRead less
Molecular Mechanisms In The Regulation Of Allergy And Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$4,977,215.00
Summary
To understand the fundamental cellular and molecular processes that underpin the development of allergic disorders, viral infections of the respiratory tract and chronic inflammatory diseases of the lung. There is particular interest in the role of immune cells, such T cells and granulocytes in these disorders, and in the processes that control their function. Understanding these processes will provide new insights into the immune system's role in health and disease, and help develop better ther ....To understand the fundamental cellular and molecular processes that underpin the development of allergic disorders, viral infections of the respiratory tract and chronic inflammatory diseases of the lung. There is particular interest in the role of immune cells, such T cells and granulocytes in these disorders, and in the processes that control their function. Understanding these processes will provide new insights into the immune system's role in health and disease, and help develop better therapies to treat inflammatory disorders.Read moreRead less
Molecular Mechanisms Of Cardiac Function And Disease
Funder
National Health and Medical Research Council
Funding Amount
$8,213,642.00
Summary
Heart disease remains the leading cause of death in our society. Almost two million Australians suffer from the debilitating effects of heart disease and it is the leading cause of premature permanent disability in our workers. Heart defects are also the most common type of birth defect and the leading cause of deaths in infants dying from birth defects. Many of these problems can be attributed directly to defects in the development, repair and-or function of heart muscle and, at the cellular le ....Heart disease remains the leading cause of death in our society. Almost two million Australians suffer from the debilitating effects of heart disease and it is the leading cause of premature permanent disability in our workers. Heart defects are also the most common type of birth defect and the leading cause of deaths in infants dying from birth defects. Many of these problems can be attributed directly to defects in the development, repair and-or function of heart muscle and, at the cellular level, of heart muscle cells or cardiomyocytes. Understanding the cardiomyocyte as well as integrated heart development, biology, physiology and function, therefore, holds great promise for major advances in the prevention and treatment of contemporary heart diseases. This Program Grant brings together a unique team of interactive researchers with expertise in cardiovascular physiology, as well as developmental, cellular and molecular biology. The outcomes anticipated from new insights into heart biology that will result from the proposed studies, are the development of novel therapeutic approaches for the prevention and treatment of heart attacks and heart failure.Read moreRead less
Innovative Stem Cell-based Strategies To Establish Immune Tolerance And Tissue Repair
Funder
National Health and Medical Research Council
Funding Amount
$5,554,618.00
Summary
Diseases such as autoimmune gastritis, multiple sclerosis and diabetes arise because a rogue immune system has turned inwards to attack our organs. The organ destruction follows from recognition by the immune system of specific molecules in these organs. These autoimmune diseases are incurable and controlled mainly by long-term administration of substances that suppress the immune system, often with serious side-effects. A rational approach is to render the rogue immune system harmless by removi ....Diseases such as autoimmune gastritis, multiple sclerosis and diabetes arise because a rogue immune system has turned inwards to attack our organs. The organ destruction follows from recognition by the immune system of specific molecules in these organs. These autoimmune diseases are incurable and controlled mainly by long-term administration of substances that suppress the immune system, often with serious side-effects. A rational approach is to render the rogue immune system harmless by removing the cells that recognize these particular molecules. This can be achieved by a Trojan horse approach in which the molecules are delivered to the immune system such that that the immune cells that recognize them are removed. To deliver these molecules to the immune system we will genetically engineer bone marrow stem cells, or embryonic stem cells that generate these stem cells, because they are precursors of mature immune cells. Rejection of organ transplants arise in a similar way and also require long-term immunosuppression. A similar approach can therefore be taken to promote acceptance of foreign organ grafts. In the aged, we will combine these approaches with rejuvenation of the immune system by blockade of sex steroid production and-or by creation of a new immune organ.Read moreRead less
Colorectal Cancer - Molecular Basis To Targeted Therapeutics.
Funder
National Health and Medical Research Council
Funding Amount
$19,818,386.00
Summary
Cancer of the colon and rectum is the most common form of cancer in Australia. Over 12,000 people are diagnosed each year with colorectal cancer (CRC) and more than one third of people will die of their disease. CRC is caused by mistakes in production of colon cells. Our research aims to discover new ways to detect CRC, develop smart drugs and nanoparticle delivery systems for destroying all types of CRC cells. We will then test our new anti-cancer drugs in clinical trials with CRC patients.