Colon Cancer: Receptors, Signalling And Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$7,115,542.00
Summary
This program aims to understand the biochemical and biological basis of colorectal cancer, a major cause of cancer deaths in Australia. The Chief Investigators have extensive experience in the analysis of the molecular defects in colorectal cancer cells and have already developed new drugs to treat successfully experimental colon tumours in animals. During this research program, we will explore these systems further, concentrating on the identification of novel inhibitors of colon cancer cell gr ....This program aims to understand the biochemical and biological basis of colorectal cancer, a major cause of cancer deaths in Australia. The Chief Investigators have extensive experience in the analysis of the molecular defects in colorectal cancer cells and have already developed new drugs to treat successfully experimental colon tumours in animals. During this research program, we will explore these systems further, concentrating on the identification of novel inhibitors of colon cancer cell growth, survival and movement. Newly developed instruments and techniques will allow us to identify and detect the critical steps during the development of colorectal cancer and to design potent drugs to fight the disease. We have experience in conducting novel clinical trials in colon cancer and have developed imaging techniques for monitoring the effectiveness and safety of new anti-cancer drugs. Our collective scientific experience and ability to work in the clinic provides a unique opportunity for developing more effective treatments for colorectal cancer patients.Read moreRead less
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$15,738,750.00
Summary
The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will ....The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will address the structural and biochemical basis for operation of an immune molecule called tapasin and unravel the basis for how some viruses escape the function of this molecule, thus allowing their immune evasion. We will also explore the use of modified small proteins called peptides in a humanized model of gluten hypersensitivity resembling that of Celiac disease. The molecular basis of the natural human immune system's capacity to recognise and reject grafts will be examined. This complements work aimed at improving the prediction of clinical graft rejection in transplantation. Dendritic cells play a central role in immunity, responsible for capturing material, whether from micro-organisms or self tissues, and presenting it to cells of the immune system. Our program will study the development and immunological function of the different dendritic cell subtypes. We will determine the relative contribution of each to the maintenance of immune tolerance and to the induction of immunity to several pathogens, including herpes simplex virus and malaria. Novel dendritic cell surface molecules that we have discovered will be tested for their ability to enhance the effectiveness of vaccines. Overall, this program utilises a broad array of immunological techniques designed to dissect the development and function of various immune system cell types and determine the structure-function relationships between important cell surface molecules involved in immunity.Read moreRead less
Insult, Injury And Recovery In Brain Disease: From Molecules To Therapeutic Outcome
Funder
National Health and Medical Research Council
Funding Amount
$8,215,611.00
Summary
When nerve cells are damaged, destroyed or injured, through disease or trauma, common pathological processes are set in train. Even though there are many factors that might trigger disease, these inevitably lead to common processes that end in cell death or initiate protective processes. One theme involves the factors that surround these responses to nerve injury and stress, and the consequent protective and regenerative responses that ensue. Another theme, closely integrates with the first, is ....When nerve cells are damaged, destroyed or injured, through disease or trauma, common pathological processes are set in train. Even though there are many factors that might trigger disease, these inevitably lead to common processes that end in cell death or initiate protective processes. One theme involves the factors that surround these responses to nerve injury and stress, and the consequent protective and regenerative responses that ensue. Another theme, closely integrates with the first, is to exploit basic biological mechanisms with the aim of identifying and developing therapeutic targets for the management of a wider range of neurological conditions.Read moreRead less
This Program Grant investigates a number of important reproductive problems that affect the fertility of men, prostate cancer and the way the mother nurtures and protects the baby during pregnancy. The successful development of sperm requires the proper function of a number of biological processes. This grant investigates the way in which sperm are produced, the genes that are needed to control their development, and the way sperm propel themselves and fertilize the egg. The research also invest ....This Program Grant investigates a number of important reproductive problems that affect the fertility of men, prostate cancer and the way the mother nurtures and protects the baby during pregnancy. The successful development of sperm requires the proper function of a number of biological processes. This grant investigates the way in which sperm are produced, the genes that are needed to control their development, and the way sperm propel themselves and fertilize the egg. The research also investigates how sperm are protected during their development from infection and immunological rejection, achieved in part by a special environment within the tubes in the testis where they grow. It appears that the general mechanisms that the body uses to combat infections are modified within the testis and the way in which this occurs may provide clues that could be applied to prevent the rejection of transplanted organs in general. Some of the substances that control these processes appear to play an important role in the body�s defense against infection. The grant also investigates the processes that are involved in the development of prostate cancer. These changes can occur over many years and the grant will study some substances that appear to be involved. The work will provide new knowledge that may assist in new tests to identify whether a cancer is slow or fast growing, thereby helping each man to decide the most sensible form of treatment. The grant will investigate how a group of proteins, that also are involved in the control of processes discussed above, assist the mother in protecting her baby during pregnancy. The outcomes will assist in the management of disturbances of pregnancy that may put the fetus at risk of survival.Read moreRead less
To study the genetic alterations that give rise to cancer. In particular, exploring how too little death of cells can lead to a tumour. If too few cells in a tissue die, a tumour may develop there. The team is exploring how the cell death process is normally controlled. They plan to characterise the molecules inside cells that determine whether a cell lives or dies and hope that better understanding of those molecules will help to explain how tumours arise. It could also lead to new drugs that c ....To study the genetic alterations that give rise to cancer. In particular, exploring how too little death of cells can lead to a tumour. If too few cells in a tissue die, a tumour may develop there. The team is exploring how the cell death process is normally controlled. They plan to characterise the molecules inside cells that determine whether a cell lives or dies and hope that better understanding of those molecules will help to explain how tumours arise. It could also lead to new drugs that can kill tumour cells more effectively by directly triggering the normal death switch of the cell.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
Gynaecological, Oesophageal And Skin Cancer In Australia: Developing The Evidence-base
Funder
National Health and Medical Research Council
Funding Amount
$6,079,935.00
Summary
Our Program addresses cancers of the ovary, uterus, oesophagus and skin (both melanoma and non-melanoma skin cancers). The first three cancers together affect almost 4,000 people and cause more than 2,000 deaths every year while skin cancer affects almost 400,000 Australians each year. Our aims are, first, to understand better how these cancers are caused so that we can try to prevent them in the future; second, to enhance diagnosis of these cancers; and third, to improve the survival and qualit ....Our Program addresses cancers of the ovary, uterus, oesophagus and skin (both melanoma and non-melanoma skin cancers). The first three cancers together affect almost 4,000 people and cause more than 2,000 deaths every year while skin cancer affects almost 400,000 Australians each year. Our aims are, first, to understand better how these cancers are caused so that we can try to prevent them in the future; second, to enhance diagnosis of these cancers; and third, to improve the survival and quality of life for people who are diagnosed with these cancers in Australia.Read moreRead less
Interactions Between Adaptable Pathogens, Drugs And The Human Host
Funder
National Health and Medical Research Council
Funding Amount
$5,727,327.00
Summary
The Centre for Clinical Immunology and Biomedical Statistics (CCIBS) represents a collaboration between Royal Perth Hospital and Murdoch University that has brought together internationally recognised expertise in clinical immunology, experimental biology and innovation in biostatistics and computing. These resources have been applied to a broad range of research issues within the broad framework of HIV and hepatitis C disease and treatment. CCIBS has become a leading centre of research excellen ....The Centre for Clinical Immunology and Biomedical Statistics (CCIBS) represents a collaboration between Royal Perth Hospital and Murdoch University that has brought together internationally recognised expertise in clinical immunology, experimental biology and innovation in biostatistics and computing. These resources have been applied to a broad range of research issues within the broad framework of HIV and hepatitis C disease and treatment. CCIBS has become a leading centre of research excellence internationally, establishing a reputation for innovative approaches to host-viral interactions that are built on a long tradition of research into the population genetics of both human and viral genomes, combined with a willingness to negotiate complex computation and statistical challenges in order to faithfully reflect dynamic biological processes at a population level. An early recognition that large and integrated repositories of genetic and clinical data are fundamental to the research success in the genomic era has also led to the creation of the single most comprehensive repository of HIV genetic sequencing data in the world. The contributions that CCIBS has made to several distinct areas of research, including understanding viral adaptation to host immune responses, the development of genetic testing to predict drug hypersensitivity reactions, and causes of antiretroviral drug-associated toxicities, have been published in prestigious journals including Science, Nature, Nature Immunology, The Lancet, Proceedings of National Academy of Sciences, and The American Journal of Human Genetics, and have also resulted in numerous international collaborations that recognise the unique attributes that CCIBS has been able to bring to the global research effort aimed at understanding fundamental aspects of HIV and hepatitis C biology and treatment.Read moreRead less
Regulation Of Bone Resorption And Formation In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$5,596,183.00
Summary
Bone is continually being formed and broken down, and these two processes are critical forthe maintenance of a normal skeleton. These processes are dependent upon communication between the bone building and degrading cells, and the hormones growth factors and cytokines that are present in the circulation or produced in bone. The tightly regulated processes of bone formation and degradation need to remain equal, and are essential for the achievement and maintenance of skeletal strength and form. ....Bone is continually being formed and broken down, and these two processes are critical forthe maintenance of a normal skeleton. These processes are dependent upon communication between the bone building and degrading cells, and the hormones growth factors and cytokines that are present in the circulation or produced in bone. The tightly regulated processes of bone formation and degradation need to remain equal, and are essential for the achievement and maintenance of skeletal strength and form. Osteoporosis results from an excess of bone breakdown over formation, and our Program aims to identify the factors that regulate these processes, and develop new therapies that can modify them. We will also determine what it is about bone cell properties that make some cancers, especially those of breast and prostate, particularly prone to spread to bone.Read moreRead less
The Chief Investigators have worked as a team for 20 years as part of a successful NHMRC Program Grant that was renewed on three successive occasions and subsequently under a NHMRC Block Grant to QIMR. Their combined expertise covers the whole spectrum from the bedside to the bench with respect to clinical studies and fundamental molecular studies of iron homeostasis. The common theme of iron homeostasis and iron overload pervades virtually all the research of the team. The team�s research has l ....The Chief Investigators have worked as a team for 20 years as part of a successful NHMRC Program Grant that was renewed on three successive occasions and subsequently under a NHMRC Block Grant to QIMR. Their combined expertise covers the whole spectrum from the bedside to the bench with respect to clinical studies and fundamental molecular studies of iron homeostasis. The common theme of iron homeostasis and iron overload pervades virtually all the research of the team. The team�s research has led to fundamental observations of iron regulation and homeostasis and the development of guidelines for the management of, and screening for, haemochromatosis, recognized as the most common inherited disorder of Caucasian populations. The proposed research encompasses molecular studies aimed at deciphering the mechanisms of iron absorption and transport; how these processes are regulated; and clinical studies on patients diagnosed with haemochromatosis. The findings are particularly pertinent to the diagnosis, management and prevention of clinical haemochromatosis.Read moreRead less