The Role Of B7 Family Members In The Generation Of Immunological Memory
Funder
National Health and Medical Research Council
Funding Amount
$437,252.00
Summary
Memory immune cells remember antigens that have previously induced an immune response. Therefore, they can react quickly and rigorously to stop subsequent infections. This project will study the role of the B7 family of proteins in communication between memory cells and other cells of the immune system to produce lifetime protection against foreign antigens. Understanding these processes will assist in creating more effective vaccines and treatments for immunodeficient or autoimmune patients.
The Effect Of Follicular Helper T Cells (TFH) On AID Regulation And Selection Of High Affinity Germinal Centre B Cells.
Funder
National Health and Medical Research Council
Funding Amount
$430,964.00
Summary
An integral component of an immune response to foreign pathogens is the production of antibodies by B cells. However, if antibodies react to self-antigens (human molecules rather than bacteria or viruses) they may also cause autoimmune diseases such as lupus. This research project is investigating the mechanisms that control antibody generation by B cells, and how these are dysregulated in autoimmune diseases, such as lupus.
Mechanisms Controlling Antibody Production By Modulating B Cell Antigen Receptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$452,125.00
Summary
This project will analyse mechanisms that regulate antibody production in health and disease. In health, antibodies are normally made exclusively against infectious agents, providing long-lasting immunity. Unknown errors in the control of antibody production result in autoimmune diseases such as systemic lupus or rheumatoid arthritis, where antibodies are made against parts of our own bodies, or result in allergies where antibodies are made against innocuous elements of our environment. In order ....This project will analyse mechanisms that regulate antibody production in health and disease. In health, antibodies are normally made exclusively against infectious agents, providing long-lasting immunity. Unknown errors in the control of antibody production result in autoimmune diseases such as systemic lupus or rheumatoid arthritis, where antibodies are made against parts of our own bodies, or result in allergies where antibodies are made against innocuous elements of our environment. In order to develop rational, specific methods for treating these diseases, it is necessary to identify and understand the biochemical mechanisms that normally control antibody formation against infectious agents, self components, and innocuous environmental agents. The project focuses on defining the biochemical mechanisms by which the antibody-forming cells, B lymphocytes, sense infectious, innocuous, or self components. These cells carry specific receptors that bind these components and transmit signals into the B lymphocyte. The research will determine how different types of signal are transmitted by the receptor so that, normally, large amounts of antibody are made against infectious agents but very little antibody is made against self components. By identifying how the types of signals are changed, the results of this project will reveal control mechanisms that may be altered in autoimmunity, allergy or immune deficiency, and that may be able to be used as drug targets to prevent unwanted antibody production to cure these diseases.Read moreRead less