Antibody Mutation Promotes Translocation: A Natural Cause Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$308,849.00
Summary
During responses to infection, the antibody genes in responding B cells mutate at a high rate, resulting in B cells producing better antibodies. Although essential for long-lived immunity, antibody mutation involves the introduction of DNA breaks which can occasionally cause leukemia or lymphoma. We understand only poorly how DNA repair systems normally make sure that antibody mutation is benign and does not cause cancer.
Cell Division And The Regulation Of Immunoglobulin Switch Recombination At The Molecular Level
Funder
National Health and Medical Research Council
Funding Amount
$392,545.00
Summary
The B lymphocyte is an important cell in the immune response as it generates protective antibody against invading pathogens. The effectiveness of an antibody response partly depends on the type of antibody made (there are eight different types). This attribute alters as the immune response progresses in a poorly understood and highly complex way. However, our recent studies have revealed a simple underlying order that can be dissected using new methods. The key to the underlying simplicity is a ....The B lymphocyte is an important cell in the immune response as it generates protective antibody against invading pathogens. The effectiveness of an antibody response partly depends on the type of antibody made (there are eight different types). This attribute alters as the immune response progresses in a poorly understood and highly complex way. However, our recent studies have revealed a simple underlying order that can be dissected using new methods. The key to the underlying simplicity is a cell division clock used to relate and promote cell changes. Here we intend to apply this new concept and the new methods to dissecting the molecular events associated with linking division to the changing properties of antibody selection. Our aim is to accurately model the process of changing antibody types at both the molecular and whole tissue levels. These studies will give us new insights into how the immune response may be directed to make the most appropriate (effective) response during infection and vaccination.Read moreRead less
Development And Function Of NKT Cell Subsets In Humans
Funder
National Health and Medical Research Council
Funding Amount
$533,828.00
Summary
NKT cells are a type of white blood cell that help to control the function of the immune system. Many studies have reported an association between low NKT cell levels and increased rates of cancer and autoimmune diseases such as type 1 diabetes (T1D). Unfortunately, NKT cells are a relatively recent discovery and their function is not well understood, especially in humans. For example, it has only recently been discovered that there are different types of NKT cells with different functions. This ....NKT cells are a type of white blood cell that help to control the function of the immune system. Many studies have reported an association between low NKT cell levels and increased rates of cancer and autoimmune diseases such as type 1 diabetes (T1D). Unfortunately, NKT cells are a relatively recent discovery and their function is not well understood, especially in humans. For example, it has only recently been discovered that there are different types of NKT cells with different functions. This lack of knowledge has prevented us from understanding how NKT cells normally prevent disease, and how we should treat diseases associated with low NKT cell numbers. In this project, we will study human NKT cells to determine how many different subsets exist, how they develop, and what role they play in the immune system. Importantly, we will use our knowledge to compare NKT cells from healthy donors and patient groups with T1D and cancer to determine exactly what is wrong with the NKT cells in these people. While both diseases are already linked to low NKT cell numbers, we do not know how these problems arise, or if some types of NKT cells are more important than others. Our study will determine how different types of NKT cells develop and function in humans and therefore allow a much more detailed understandng of how to diagnose and treat NKT cell deficiencies associated with different diseases.Read moreRead less
Bone marrow transplantation (BMT) is the most effect treatment for a number of conditions, especially leukemia. Graft versus host disease (GVHD) is a complication of BMT and results in the death of up to 50% of transplant recipients. GVHD occurs when the newly transplanted immune system recognizes the recipient as foreign and mounts and immune reponse against the patients tissues. These studies will focus on identifying and understanding the function of the immune cells which drive GVHD.
Regulation Of T Follicular Helper Cell Development And Effector Function In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$419,197.00
Summary
Immune cells mature into distinct populations with specialized functions. One subsets are T follicular helper (TFH) cells which are important for instructing B cells to produce antibodies following infection or vaccination. The means by which TFH cells are generated are unknown. We will determine mechanisms whereby TFH cells are produced and how they function. We hope to design approaches that will modulate the function of TFH cells in cases of immunodeficiencies, autoimmunity or vaccination.
CD4 T-cell Deficiency And Dysfunction In HIV Patients Receiving Effective Antiretroviral Therapy
Funder
National Health and Medical Research Council
Funding Amount
$490,020.00
Summary
Large numbers of people throughout the world will commence antiretroviral treatment for HIV infection over the next 5 years. This treatment partially corrects CD4 T-cell deficiency (the most characteristic immune defect caused by HIV infection) but does not restore the immune system to normal in patients who were very immunodeficient before treatment. This study will determine the cause of residual immune defects in patients receiving antiretroviral drugs with the aim of introducing new therapie ....Large numbers of people throughout the world will commence antiretroviral treatment for HIV infection over the next 5 years. This treatment partially corrects CD4 T-cell deficiency (the most characteristic immune defect caused by HIV infection) but does not restore the immune system to normal in patients who were very immunodeficient before treatment. This study will determine the cause of residual immune defects in patients receiving antiretroviral drugs with the aim of introducing new therapies to correct those defects. Our previous studies have demonstrated that the production of new T-cells in HIV patients receiving antiretroviral durgs is affected by the function of the thymus, but that this does not account for the production of all new T-cells. We will investigate other sites of T-cell production in the body. We have also previously shown that poor recovery of CD4 T-cells in patients successfully treated with antiretroviral drugs is associated with immune activation and that the T-cells do not function adequately, even when CD4 T-cell counts are substantially increased. We will determine whether these abnormalities are the result of a persistent defect in T cell activation by monocytes and-or dendritic cells. The findings of our studies will improve the treatment and life-expectancy of individuals with HIV infection.Read moreRead less
The Cellular And Molecular Basis To The Paradox Of Positive Versus Negative T Cell Selection
Funder
National Health and Medical Research Council
Funding Amount
$278,090.00
Summary
The protection against disease requires the generation of white blood cells called T lymphocytes that are produced in the thymus. Each T cell has a specific surface receptor, generated by random gene switching, that can react against foreign pathogens. Since there is a very high conservation of molecules used in all organisms, some of these receptors could by chance also react against normal cells in the host. Eliminating all such self-reactive cells would mean, however, the repertoire remaining ....The protection against disease requires the generation of white blood cells called T lymphocytes that are produced in the thymus. Each T cell has a specific surface receptor, generated by random gene switching, that can react against foreign pathogens. Since there is a very high conservation of molecules used in all organisms, some of these receptors could by chance also react against normal cells in the host. Eliminating all such self-reactive cells would mean, however, the repertoire remaining for eliminating infection would be too low and immunodeficiency develops. This project investigates the mechanisms controlling the balance between defence infection and the need to prevent immune-based self destruction termed autoimmunity.Read moreRead less