The Regulation And Differentiation Potential Of Human Memory B Lymphocytes
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Antibody produced by our immune system plays a critical role in protecting us from infectious disease. Remarkably our ability to make antibodies is much faster the second time we see the infection. This memory of the previous attack occurs due to the formation of memory B cells that circulate in the blood, sometimes for years, looking for the same intruders. If they detect the infection they rapidly become activated and remake the antibody. These memory cells are very important for our protectio ....Antibody produced by our immune system plays a critical role in protecting us from infectious disease. Remarkably our ability to make antibodies is much faster the second time we see the infection. This memory of the previous attack occurs due to the formation of memory B cells that circulate in the blood, sometimes for years, looking for the same intruders. If they detect the infection they rapidly become activated and remake the antibody. These memory cells are very important for our protection. Vaccines operate by tricking the immune system into making these memory cells, even though the body hasn't seen the actual disease. Although clearly vital for our health little is known about the activation and antibody production by human B memory cells. This project will redress our lack of knowledge by performing a comprehensive evaluation of the properties of this important cell type.Read moreRead less
Cellular And Molecular Events During Antigen Dependent B Cell Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$283,329.00
Summary
The immune system is essential for protecting us against invasion from without by viruses and bacteria and invasion from within by cancer cells. Among the white blood cells making up this system are those responsible for producing antibodies. To ensure that all possible infections and tumours can be recognised, the body needs to manufacture a very large number of these cells on a continuous basis. The aim of this project is to work out the mechanism responsible for controlling their production a ....The immune system is essential for protecting us against invasion from without by viruses and bacteria and invasion from within by cancer cells. Among the white blood cells making up this system are those responsible for producing antibodies. To ensure that all possible infections and tumours can be recognised, the body needs to manufacture a very large number of these cells on a continuous basis. The aim of this project is to work out the mechanism responsible for controlling their production and function using a novel experimental system. By pinpointing the different stages involved in antibody production in the normal host we should be in a better position to make longer lasting vaccines in the future and to understand what goes wrong with these white cells in disease. In particular, the results should shed light on the chronic form of leukaemia called myeloma and some of the autoimmune disorders like the rheumatic diseases which occur when the antibodies being produced attack our own tissues.Read moreRead less
Tropical Infectious Diseases - Pathogenisis And Vaccine Research
Funder
National Health and Medical Research Council
Funding Amount
$7,311,989.00
Summary
The diseases on which three themes of the work proposed centre, malaria, streptococcal diseases and scabies are infectious diseases largely affecting indigenous people in various parts of the world on a massive scale, for which there are no vaccines. The aim of the work is to develop vaccines or other biological prevention measures against each of these diseases and the problems that need to be solved are similar. The team includes senior experts on thebiology of infectious diseases with long hi ....The diseases on which three themes of the work proposed centre, malaria, streptococcal diseases and scabies are infectious diseases largely affecting indigenous people in various parts of the world on a massive scale, for which there are no vaccines. The aim of the work is to develop vaccines or other biological prevention measures against each of these diseases and the problems that need to be solved are similar. The team includes senior experts on thebiology of infectious diseases with long histories of collaboration as well as younger members with impressive credentials that are new to the collaboration. The fourth theme of the work proposed is concerned with inventive new ways of making such vaccines by novelchemical methods. It has already been the subject of published collaborative work onstreptococcal disease and is equally applicable to the other themes.Read moreRead less
The Role Of Proteinase Inhibitor 9 In Cytotoxic Lymphocyte Function
Funder
National Health and Medical Research Council
Funding Amount
$820,136.00
Summary
Cytotoxic lymphocytes eliminate virus-infected or cancerous cells from the body. This is achieved by the release of powerful cytotoxins that kill the abnormal cell. Unless carefully targeted these cytotoxins can damage surrounding normal tissue or the cytotoxic lymphocyte itself, and lead to autoimmune disease. One of the most important cytotoxins is a protease called granzyme B. We have discovered a natural inhibitor of granzyme B that is present in cytotoxic cells and testis. Our studies are a ....Cytotoxic lymphocytes eliminate virus-infected or cancerous cells from the body. This is achieved by the release of powerful cytotoxins that kill the abnormal cell. Unless carefully targeted these cytotoxins can damage surrounding normal tissue or the cytotoxic lymphocyte itself, and lead to autoimmune disease. One of the most important cytotoxins is a protease called granzyme B. We have discovered a natural inhibitor of granzyme B that is present in cytotoxic cells and testis. Our studies are aimed at understanding the role of the inhibitor in human immune and reproductive function. We will also design and evaluate synthetic compounds based on the natural inhibitor that will enable us to easily measure granzyme B levels and control its activity.Read moreRead less
Investigation Of The Roles Of TNFa-related Apoptosis-inducing Ligand, TRAIL, In The Immune System.
Funder
National Health and Medical Research Council
Funding Amount
$436,980.00
Summary
TRAIL, is a newly described member of the tumour necrosis factor (TNF)-family of cytokines, which can kill a wide range of tumour cells, and virus infected cells, but not most normal cells. TRAIL has proven to be safe when administered to normal, tumour bearing, and virally-infected mice, and causes no detectable side-effects in these animals. As such it holds huge potential and is being widely investigated for use as a new anti-cancer therapy. Despite these findings, little is known about the t ....TRAIL, is a newly described member of the tumour necrosis factor (TNF)-family of cytokines, which can kill a wide range of tumour cells, and virus infected cells, but not most normal cells. TRAIL has proven to be safe when administered to normal, tumour bearing, and virally-infected mice, and causes no detectable side-effects in these animals. As such it holds huge potential and is being widely investigated for use as a new anti-cancer therapy. Despite these findings, little is known about the true physiological role of TRAIL in vivo. To define the normal roles of TRAIL, CIA has been characterising TRAIL gene knock-out mice. These studies have confirmed that TRAIL contributes to control of tumours in vivo, and in early events during anti-viral responses. However, these studies have also revealed novel roles for TRAIL in T cell biology, and B cell memory. Understanding how TRAIL contributes to these processes, will shed significant light on the potential of TRAIL to be used as a therapeutic agent for humans with lymphoproliferative disease, for illiciting better long-lived antibody responses such as after vaccination, and as an anti-viral reagent in immunocompromised individuals during virus infection.Read moreRead less
Role Of The Mast Cell Product Histamine In Ultraviolet Radiation Induced Systemic Immunomodulation
Funder
National Health and Medical Research Council
Funding Amount
$393,750.00
Summary
The harmful effects of ultraviolet radiation on skin, as exemplified by sun exposure, are well recognised: sunburn, premature ageing of skin, and induction of skin cancer. Indeed, skin cancers are the most common cancers in Australia. Increasingly recognised now is that UV radiation can alter the immune system. This is of particular relevance to the development of skin cancer: alteration of the immune system is critical to outgrowth of UV-induced cancers. The intact immune system is otherwise ab ....The harmful effects of ultraviolet radiation on skin, as exemplified by sun exposure, are well recognised: sunburn, premature ageing of skin, and induction of skin cancer. Indeed, skin cancers are the most common cancers in Australia. Increasingly recognised now is that UV radiation can alter the immune system. This is of particular relevance to the development of skin cancer: alteration of the immune system is critical to outgrowth of UV-induced cancers. The intact immune system is otherwise able to reject the great majority of UV-induced skin cancers. This effect of UV radiation on the immune system may be relevant to other diseases. It may alter the course of some infections, change the way the body responds to vaccination, and may also have a role in some immune-related diseases such as multiple sclerosis. How it is that these wavelengths just beyond visible light can affect the immune system is the subject of this project. We know that UV radiation can penetrate only a short way into the skin, yet can have widespread effects on the immune system. Our research to now has shown that a particular cell type sitting just below the surface of skin, the dermal mast cell, is essential. We've also demonstrated some of the complexity of the early response to UV exposure - both a chemical (cis-urocanic acid) in the very outermost layer of skin, and nerves in the skin, have roles. Importantly, anti-histamines can inhibit UV effects on immune responses. Additional lines of evidence also point to histamine, a product of mast cells, as playing a pivotal role in the immune alterations following UV exposure. Our research aims to characterise the effects of histamine on cells central to the development of immune responses, known as dendritic cells, and define the mechanisms of the effect in experimental models. In collaboration with researchers in the UK, we will further characterise the role of mast cells in UV alterations to immunity in humans.Read moreRead less