Gamma-Tocopherol: An Important Dietary Factor For Protection Against Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$341,575.00
Summary
Heart disease is one of the most common causes of death in Western Countries. Oxidative damage is thought to be a major contributor to the development of a number of chronic diseases such as heart disease. Oxidative damage can occur in states of oxidative stress when the body's antioxidant defences cannot prevent damage caused by free radicals or other oxidants. Antioxidant vitamins help defend against oxidative injury and therefore should help to protect against such diseases as heart disease ( ....Heart disease is one of the most common causes of death in Western Countries. Oxidative damage is thought to be a major contributor to the development of a number of chronic diseases such as heart disease. Oxidative damage can occur in states of oxidative stress when the body's antioxidant defences cannot prevent damage caused by free radicals or other oxidants. Antioxidant vitamins help defend against oxidative injury and therefore should help to protect against such diseases as heart disease (atherosclerosis). Population studies support the view that dietary antioxidants such as vitamin E help to protect against heart disease. However, several large studies giving subjects vitamin E supplements (pure alpha tocopherol) showed no benefits or protection against heart disease. There is a cruicial difference between supplements and dietary intake of vitamin E. Supplements contain only alpha tocopherol while dietary sources derived from seeds, nuts, grain and oils is a mixture of different forms of tocopherol. Recent evidence suggests that one of these forms (gamma-tocopherol) has different properties to alpha-tocopherol and can protect against certain oxidants in ways that alpha-tocopherol cannot. We have developed a specialised assay to detect forms of gamma-tocopherol in human plasma that have reacted with toxic oxidants. Using this assay we have shown that people with heart desease may have higher levels of these products in their blood than people without heart disease. This project will investigate the effects of gamma and alpha tocopherol dietary supplements on risk factors for heart disease. It will also investigate how gamma tocopherol may be working to protect against the development of heart disease. These studies could have important implications for what type of diet or dietary supplement is most beneficial to protect against heart disease.Read moreRead less
Improving Immunoassays For The Diagnosis Of Latent Tuberculosis Infection In Children
Funder
National Health and Medical Research Council
Funding Amount
$489,006.00
Summary
WHO highlights the urgent need for new tests for tuberculosis (TB). Diagnosis of latent TB infection (LTBI) is vital in children to prevent them developing active TB. A tuberculin skin test has long been used but is not always accurate. More accurate blood tests (immunoassays) have recently been developed which improve the diagnosis of LTBI in adults. However, we have shown that these assays do not work well in children. We aim to improve the performance of immunoassays for diagnosing LTBI in ch ....WHO highlights the urgent need for new tests for tuberculosis (TB). Diagnosis of latent TB infection (LTBI) is vital in children to prevent them developing active TB. A tuberculin skin test has long been used but is not always accurate. More accurate blood tests (immunoassays) have recently been developed which improve the diagnosis of LTBI in adults. However, we have shown that these assays do not work well in children. We aim to improve the performance of immunoassays for diagnosing LTBI in children.Read moreRead less
Investigation Of The Molecular Basis Of Human Nevogenesis And Melanoma Initiation
Funder
National Health and Medical Research Council
Funding Amount
$598,220.00
Summary
The number of moles and lifetime exposure to solar UV are the major risk factors in melanoma development. A genetic association between the IRF4 gene and mole number and melanoma susceptibility has been reported. We propose that changes in the function of this gene will impact on the behaviour of melanocytes/melanoma cells, their response to UV radiation and interaction with surrounding cells. Understanding the function of this gene will provide crucial insight into the initiation of melanoma.
Interferon Mediated Control Of Legionella Infection
Funder
National Health and Medical Research Council
Funding Amount
$628,848.00
Summary
Bacterial lung infections are a serious cause of illness and death in humans. To fight infection the body activates the immune system using a network of signalling molecules. We are studying exactly how one of these signalling molecules called interferon controls the infection. Interferon induces the killing of bacteria that are replicating inside human lung cells. How interferon drives bacterial death is not known and this will be studied in this proposal.
Role Of IRF8 In Central Nervous System Glial Cell Function
Funder
National Health and Medical Research Council
Funding Amount
$429,437.00
Summary
Glial cells of the brain change their function in response to local threats such as damage and this may contribute to either protection or injury of neurons. How glial cells mount this response is unknown. The goal of this project is to determine the role of the protein IRF8 in controlling the functional response of glial cells. The results will provide a better understanding of how glial cells contribute to neurological and neurodegenerative diseases.