Development And Refinement Of Neural Connections In The Adult Brain In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$8,061,596.00
Summary
Our group will use innovative approaches such as advanced imaging and cell-sorting and development of animal models to determine how new neurons are generated, how they travel to different parts of the brain and how they integrate into the existing brain circuitry. These discoveries will point to new ways in which to treat brain damage both during ageing and during pathology. Since team members have previously been involved in progressing molecular discovery to clinical trials, we are also in a ....Our group will use innovative approaches such as advanced imaging and cell-sorting and development of animal models to determine how new neurons are generated, how they travel to different parts of the brain and how they integrate into the existing brain circuitry. These discoveries will point to new ways in which to treat brain damage both during ageing and during pathology. Since team members have previously been involved in progressing molecular discovery to clinical trials, we are also in a good position to exploit these discoveries in partnership with the biopharmaceutical industry.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
To understand the genetic basis of two of the most important cancers in women, breast and ovarian cancer. The team has already identified one gene that confers a very high risk of breast cancer and may account for a large proportion of 'familial' breast cancer. Their aim is to identify additional predisposition genes and to determine their normal function in the cell, as well as the way in which they contribute to the development of cancer
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
Improved Respiratory Support And Outcomes For Very Preterm Babies
Funder
National Health and Medical Research Council
Funding Amount
$9,185,907.00
Summary
Premature babies are born with lungs that are not developed enough to sustain their breathing needs after birth. As a result, they need intensive care which is the most costly and challenging problem in newborn medicine as these infants can suffer life-long diseases because of their early birth. This programs study will help to understand the causes of lung disease in premature babies and develop better ways of caring for them to improve their chances of survival without ongoing illness and disa ....Premature babies are born with lungs that are not developed enough to sustain their breathing needs after birth. As a result, they need intensive care which is the most costly and challenging problem in newborn medicine as these infants can suffer life-long diseases because of their early birth. This programs study will help to understand the causes of lung disease in premature babies and develop better ways of caring for them to improve their chances of survival without ongoing illness and disabilityRead moreRead less
Molecular Determinants Of Risk, Progression And Treatement Response In Melenoma
Funder
National Health and Medical Research Council
Funding Amount
$12,947,193.00
Summary
Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life because it is the common cause of cancer death in younger adults. The investigators are all associated with the Melanoma Institute Australia, incorporating the Sydney Melanoma Unit (SMU). MIA is the world’s largest clinical service dedicated to the treatment of melanoma, treating >1500 new melanoma patients annually and mainta ....Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life because it is the common cause of cancer death in younger adults. The investigators are all associated with the Melanoma Institute Australia, incorporating the Sydney Melanoma Unit (SMU). MIA is the world’s largest clinical service dedicated to the treatment of melanoma, treating >1500 new melanoma patients annually and maintains a repository of clinical data on melanoma and a large melanoma tissue bank. The Program has also recruited large numbers of people from the community, as well as people with a strong family history of melanoma, in order to study its causes. It aims to utilise these internationally-recognised resources to develop a scientific basis for 1) improved management of individuals at high risk for development and progression of melanoma, and 2) improved treatment of patients with early and disseminated melanoma, in an era of rapid change in the prospects of successfully treating this dangerous cancer. The Program will do this by consolidating and extending its existing collaborative research, supported by NHMRC since 2006.Read moreRead less
Breast Cancer is a very common disease in women and although huge progress has been made in the last two decades, much remains to be done to improve our understanding of different types of breast cancer and its management. This program brings together the expertise of three senior researchers: 2scientists and 1 medical scientist. Dr Trench has an interest in identifying genes involved in cancers arising in patients who have a strong family history. She will use molecular methods and cohorts of p ....Breast Cancer is a very common disease in women and although huge progress has been made in the last two decades, much remains to be done to improve our understanding of different types of breast cancer and its management. This program brings together the expertise of three senior researchers: 2scientists and 1 medical scientist. Dr Trench has an interest in identifying genes involved in cancers arising in patients who have a strong family history. She will use molecular methods and cohorts of patients enrolled with Kathleen Cunningham Foundation for Research into Familial Breast and Ovarian Cancer to identify the genes responsible, assess their distribution in the population and determine whether these genes also play a role in non-familial cancers. Dr Khanna's work examines the complex array of enzymes that are responsible for maintaining the integrity of the DNA, and investigates how failure of these mechanisms leads to damage of the genetic material which ultimately results in cancer. It is known that genes involved in familial predisposition code for proteins that work as DNA repair enzymes. It is also known that different types of breast cancer exist, each with differing behaviour and response to treatment and that they are associated with specific genetic changes, including those associated with a familial predisposition. Prof Lakhani's interest lies in using microscopy and the latest molecular tools to refine the classification of these different types of breast tumour so that they can be managed appropriately by his surgical and oncological colleagues. A better understanding of the genetic changes and underlying biology of different types of breast cancer will lead to individualised and specific therapy for patients. This program brings together a unique combination, nationally and internationally, that investigates cancers at the level of genes and cells and translates the information to the clinic for the benefit of patient management.Read moreRead less
Epilepsy: Molecular Basis And Mechanisms In The Era Of Functional Genomics
Funder
National Health and Medical Research Council
Funding Amount
$12,062,533.00
Summary
The team comprises of neurologists with a special interest in epilepsy (both adult and child) molecular geneticists, physiologists and brain imaging specialists. The team leads the world in the discovery of the genetic causes of epilepsy and epilepsy associated with intellectual disability. The team will continue to identify the genes underlying epilepsy, and study how genetic variations result in the development of seizures and will continue to develop advanced imaging techniques for these stud ....The team comprises of neurologists with a special interest in epilepsy (both adult and child) molecular geneticists, physiologists and brain imaging specialists. The team leads the world in the discovery of the genetic causes of epilepsy and epilepsy associated with intellectual disability. The team will continue to identify the genes underlying epilepsy, and study how genetic variations result in the development of seizures and will continue to develop advanced imaging techniques for these studies. This will include extensive laboratory studies, including the development of mice with the exact mutations that we find in the human condition. Stateof-the-art imaging techniques with magnetic resonance and positron emission tomography are used in human subjects to further understand the effects of the mutations on the structure and function of the brain. This will allow deep understanding of how seizures develop and may lead to new diagnostic methods and treatments. The laboratory and clinical aspects of the research are tightly integrated in this internationally leading collaborative program.Read moreRead less