SIGN Receptors And The Antiinflammatory Activity Of Sialylated IgG Fcs
Funder
National Health and Medical Research Council
Summary
IgG antibodies are a crucial component of the immune system, and significantly contribute to host protection against cancer and infectious diseases. Additionally, therapeutic IgG antibodies have been developed for treatment of cancer and inflammatory diseases. The studies proposed herein will elucidate one important aspect of how IgG antibodies act as anti-inflammatory agents, and may lead to the design of more effective IgG based therapies for the treatment of inflammatory diseases or cancer.
Aberrant Oligosaccharide Processing Of Nox2-oxidase As A Mechanism Of Vascular Oxidative Stress In Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$552,565.00
Summary
Excessive production of free radicals by an enzyme called Nox2 may be a cause of artery disease leading to heart attacks and strokes. This study will identify whether the addition of sugarchains to Nox2 causes it to be expressed at the surface of cells allowing the free radicals it produces to exit the cell and cause damage to the blood vessel wall. Charaterising this new pathway of excessive free radical production may pave the way for new diagnostics and treatments for artery disease.
Glycosylation Of Pili In Pathogenic Neisseria: Function In Disease And Potential As A Vaccine Antigen
Funder
National Health and Medical Research Council
Funding Amount
$150,880.00
Summary
Disease caused by Group B Neisseria meningitidis and Neisseria gonorrhoeae remain a significant health problem worldwide. There are currently no vaccines available for either of these bacteria. A surface structure found on these bacteria, called pili, are key in host colonisation and disease. Genetics and structural studies have identified that the protein subunits, which make up pili, are glycosylated - modified by the addition of sugars. The role of glycosylation in the disease process is not ....Disease caused by Group B Neisseria meningitidis and Neisseria gonorrhoeae remain a significant health problem worldwide. There are currently no vaccines available for either of these bacteria. A surface structure found on these bacteria, called pili, are key in host colonisation and disease. Genetics and structural studies have identified that the protein subunits, which make up pili, are glycosylated - modified by the addition of sugars. The role of glycosylation in the disease process is not known. It is possible that the glycosylation of pili is required for attachment to host cells or perhaps in evasion of the immune system. In our current studies, we have identified and analysed a number of genes involved in pili glycosylation, in bacteria which make structre that are know. We have also identified a series of new genes we believe are also involved in glycosylation. Some of these genes are involved in the biosynthesis of unknown structures and are common in bacteria isolated from patients with meningitis. We will identify these stuctures and characterise bacteria in which these genes have been inactivated so that we can examine the role of pili glycosylation in colonisation and disease. This study has the potential to yield important new information about the process of colonisation and disease, and also has the potential to facilitate novel approaches in vaccine development.Read moreRead less