I am a cell biologist investigating the means by which intracellular compartmentalization of signalling proteins determines signalling outcomes and cell fate. I focus particularly on signals that regulate immune function and cancer progression.
Role Of Tetraspanins In Integrin Function And Leukocyte Migration
Funder
National Health and Medical Research Council
Funding Amount
$419,223.00
Summary
Cell migration is a very important component of the immune system. White blood cells, migrate from tissues to lymph nodes to initiate immune responses, and can migrate from blood to sites of inflammation to fight infection. This grant studies a type of protein called a tetraspanin that we believe controls white blood cell migration. Understanding the precise role of tetraspanins in this process will further our understanding of inflammation in disease processes.
Negative Modulators Of Leucocyte Recruitment In The Kidney. The Role Of Slit And Robo.
Funder
National Health and Medical Research Council
Funding Amount
$368,100.00
Summary
Kidney failure is a major health problem in our community, affecting the lives of several thousand individuals and their families. Every year in Australia, about 2,000 new individuals commence dialysis and require ongoing treatment for the rest of their lives. The significant negative impact kidney failure has on quality of life and on life expectancy added to the major shortage of transplant organs, makes the development of effective therapies for kidney diseases an important goal. Our current ....Kidney failure is a major health problem in our community, affecting the lives of several thousand individuals and their families. Every year in Australia, about 2,000 new individuals commence dialysis and require ongoing treatment for the rest of their lives. The significant negative impact kidney failure has on quality of life and on life expectancy added to the major shortage of transplant organs, makes the development of effective therapies for kidney diseases an important goal. Our current therapies have major limitations in terms of their effectiveness and side effects. New therapies which can prevent the progression of kidney disease or prolong the survival of transplanted kidneys may, therefore, have enormous benefits. In order for this to occur, an improved understanding of the common factors underlying kidney disease is required. Our recent studies have been examining the factors influencing kidney inflammation. This process is a significant cause of long term damage in various kidney diseases and in kidney transplants. Our work has identified a potentially major role for recently discovered molecules known as Slit proteins in preventing or decreasing inflammation in the kidney. The level of expression of these molecules in the kidney appears to be rapidly decreased in kidney inflammation and their protective effect is then lost. This imbalance appears to promote the disease process and may be a useful target for the treatment of certain kidney diseases. Our work has found that Slit proteins are able to decrease the movement of white cells (the cells which cause inflammation) out of the blood circulation and into the kidney. The proposed studies aim to better understand the role of these molecules in the kidney as naturally expressed anti-inflammatory agents and to test their potential as therapeutic agents. We hope that the information obtained from these studies will help in the development of new therapies to manage various forms of kidney disease.Read moreRead less
Molecular Interactions Of The Tetraspanins CD37, TSSC6 And CD151 In T Cells
Funder
National Health and Medical Research Council
Funding Amount
$566,575.00
Summary
The tetraspanins are a new type of protein that are found at the surface of cells. Cells of the immune system, such as white blood cells, display at their surface, up to 20 different tetraspanin proteins. However, the precise contributions of these tetraspanin proteins to immunity is still not clear, nor is it clear exactly how tetraspanin proteins differ from one another and why white blood cells need to display so many different tetraspanins. Using genetic technology we have created mice which ....The tetraspanins are a new type of protein that are found at the surface of cells. Cells of the immune system, such as white blood cells, display at their surface, up to 20 different tetraspanin proteins. However, the precise contributions of these tetraspanin proteins to immunity is still not clear, nor is it clear exactly how tetraspanin proteins differ from one another and why white blood cells need to display so many different tetraspanins. Using genetic technology we have created mice which are unable to express certain individual tetraspanin proteins at their cell surface. Excitingly, the immune systems of these mice are not normal, in particular one type of white blood cell, the T cell responds in an exaggerated manner to stimulation. These results suggest a role for tetraspanins in the control and regulation of the immune system. This project will extend these results and work out the precise molecular mechanism by which the tetraspanins exert this control. In the future, a full understanding of how tetraspanins control T cells may ultimately lead to novel ways of controlling the immune system.Read moreRead less
Dendritic cells are a very rare type of white blood cell which play a critical role in the initiation of the immune response. They are of particular interest to scientists interested in vaccination, as for a vaccine to work effectively, the vaccine must be presented to the rest of the immune system by the dendritic cell. It has only recently become apparent that there are several types of dendritic cell, and these different types of dendritic cell vary in their ability to present a vaccine to th ....Dendritic cells are a very rare type of white blood cell which play a critical role in the initiation of the immune response. They are of particular interest to scientists interested in vaccination, as for a vaccine to work effectively, the vaccine must be presented to the rest of the immune system by the dendritic cell. It has only recently become apparent that there are several types of dendritic cell, and these different types of dendritic cell vary in their ability to present a vaccine to the immune system. We have already identified some proteins that are expressed on the surface of only one type of dendritic cell. We will explore the possible use of these proteins as a means of delivering a vaccine to only one type of dendritic cell. This project will also identify new genes that are expressed in some types of dendritic cells but not others. These new genes whose expression does differ amongst the dendritic cells are potential targets for manipulating the immune system and ensuring more efficient vaccination.Read moreRead less
Factors Controlling Leucocyte Migration In Healthy Intestine And In Inflammatory Bowel Disease
Funder
National Health and Medical Research Council
Funding Amount
$195,217.00
Summary
Inflammatory bowel diseases (IBD) are relapsing and remitting disorders of the intestine that create substantial disability in a relatively young population of patients. Our treatments for these conditions have changed little in the last 30 years and they are commonly accompanied by side effects. Research into the mechanisms controlling the gut inflammation offers promise for the development of novel, targeted and less toxic therapies. The major mediators of damage in IBD are white blood cells r ....Inflammatory bowel diseases (IBD) are relapsing and remitting disorders of the intestine that create substantial disability in a relatively young population of patients. Our treatments for these conditions have changed little in the last 30 years and they are commonly accompanied by side effects. Research into the mechanisms controlling the gut inflammation offers promise for the development of novel, targeted and less toxic therapies. The major mediators of damage in IBD are white blood cells recruited from the circulation to affected intestine. This recruitment is induced by the production in damaged intestine of chemokines, proteins of the immune system that attract and activate white blood cells. Chemokines act through chemokine receptors on the surface of white blood cells, and earlier research by our group has demonstrated that these chemokine receptors can be functionally modulated by neuropeptides, proteins unrelated to chemokines that normally transmit messages within the nervous system. This project aims to explore the chemokines and chemokine receptors responsible for the recruitment of white blood cells to normal and IBD-affected intestine, in order to determine therapeutic targets for novel treatments. Moreover, the role of neuropeptides in modulating the recruitment of white blood cells to the intestine will be examined in cells from the human intestine, both normal and IBD-affected, as well as in an animal model of IBD. This project will provide an understanding of the signals responsible for the attraction of damaging white blood cells to sites of inflammation in the bowel and will indicate mechanisms used by the immune system to regulate those signals. It has the potential to direct us to new therapies that use highly targeted and physiologically appropriate approaches to controlling white blood cell trafficking in health and disease.Read moreRead less