Regulation Of Neural Cell Production In The Normal And Diseased Brain
Funder
National Health and Medical Research Council
Funding Amount
$6,888,658.00
Summary
Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Disco ....Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Discovering the molecular mechanisms controlling this process is the goal of the present program. In order to achieve this aim we have formed a team on the basis of considerable past success, as well as future requirements. The team members have the complementary skills to assess all aspects of the problem, including crucial functional and clinical expertise. By combining resources we will position ourselves at the very forefront of the international competition to discover and to evaluate clinically the molecular mechanisms underlying neural repair and regeneration. This is of enormous significance in determining how we best treat stroke, injury and other neurodegenerative diseases in the next 10 years, and will lead to the development of new therapeutics of immense value. The team will use innovative approaches such as cell-sorting to obtain pure populations of stem cells and their progeny in order to identify new therapeutic targets; these will then be validated in animal models of neurological disease. 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
Inflammation and cancer are at the heart of many human diseases. This particularly applies to the major global problem of liver fibrosis and liver cancer affecting almost half a billion of the worlds population. This Program brings together researchers with expertise in basic science and the clinic with the aim of exploring these issues at the cellular and molecular level. The ergistic and combinatorial use of basic and clinical skills gives a high likelihood of discoveries leading to new therap ....Inflammation and cancer are at the heart of many human diseases. This particularly applies to the major global problem of liver fibrosis and liver cancer affecting almost half a billion of the worlds population. This Program brings together researchers with expertise in basic science and the clinic with the aim of exploring these issues at the cellular and molecular level. The ergistic and combinatorial use of basic and clinical skills gives a high likelihood of discoveries leading to new therapies.Read moreRead less
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
MOLECULAR AND CELLULAR PATHOGENESIS OF HUMAN LIVER DISEASE
Funder
National Health and Medical Research Council
Funding Amount
$4,928,323.00
Summary
n humans, chronic liver diseases cause cirrhosis of the liver in some but not all individuals. This leads to protracted ill-health, complications (fluid retention in the abdomen, confusion, bloodstream infections, kidney failure, liver cancer) resulting in hospitalisation, liver transplantation and premature death. In Australia, cirrhosis is an important cause of death and of years of potential life lost, while liver cancer has recently doubled and is predicted to treble by 2020. The common caus ....n humans, chronic liver diseases cause cirrhosis of the liver in some but not all individuals. This leads to protracted ill-health, complications (fluid retention in the abdomen, confusion, bloodstream infections, kidney failure, liver cancer) resulting in hospitalisation, liver transplantation and premature death. In Australia, cirrhosis is an important cause of death and of years of potential life lost, while liver cancer has recently doubled and is predicted to treble by 2020. The common causes are hepatitis C, fatty liver disorders, alcohol and hepatitis B; when 2 of these are present together, there is a higher risk of cirrhosis. This program aims to unravel the pathological processes which cause cirrhosis at the molecular and cellular levels, in order to understand why some people are at higher risk. These processes could result from genetic predisposition, other constitutional factors (age, gender) or from lifestyle factors (overnutrition, inactivity, alcohol). The 3 chief investigators from Westmead s Millennium Institute and the Centenary Institute of Royal Prince Alfred Hospital are international experts in hepatitis C, non-alcoholic steatohepatitis (NASH) and other fatty liver disorders, autoimmune hepatitis, liver transplantation, and scarring processes that lead to cirrhosis of the liver. The new knowledge that will result from these studies will be used to help prevent people developing severe forms of chronic liver disease, and for treating cirrhosis if it has already occurred.Read moreRead less