Red Cell Disorders And The Regulation Of Iron Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$605,096.00
Summary
Iron is an essential nutrient, but it is also toxic when present in excess, so the amount of iron moving into and around the body must be tightly controlled. In this project we will investigate how this body iron movement is regulated, and in particular the role played by macrophages, the cells that clean up old red blood cells. An understanding of this process will be of great benefit in the analysis and treatment of important blood diseases and disorders of iron metabolism.
Amyloid Precursor Proteins Novel Role In Alzheimers Disease Through Regulating Neuronal Iron Homeostasis.
Funder
National Health and Medical Research Council
Funding Amount
$949,667.00
Summary
Our group has discovered a novel role of amyloid precursor protein (APP) in cellular iron balance. The smallest form of APP, prevalently found in the brain, is able to convert a damaging iron variety (Fe2+) into the safer Fe3+. Alternative, larger, forms of APP are found to inhibit this effect. This project will establish how APP controls iron homeostasis within brain neuronal cells and how this activity is impaired in disease, thus development a mechanism for diagnostic tests and therapeutics.
Mechanisms Of Intestinal And Systemic Iron Homeostasis In Early Infancy
Funder
National Health and Medical Research Council
Funding Amount
$485,835.00
Summary
Iron is essential trace element for normal health. Iron requirements are particularly high during early postnatal life to meet the needs of the growing infant. To accommodate these needs, intestinal iron absorption is extremely high at this time. We have previously shown that the iron absorption mechanism during suckling differs from that in adults and this project explores that mechanism in more detail. These studies have important implications for infant nutrition and dietary supplementation.
Mechanisms Of Intestinal Iron Absorption And Consequences Of Iron Supplementation During The Perinatal Period
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Iron intake is particularly high during pregnancy and in the newborn to meet the requirements of the growing fetus and neonate. While it is widely recommended that women take iron supplements at this time, too much iron may adversely affect pregnancy outcome. The aim of this study is to understand the factors controlling iron intake in the perinatal and the consequences of excess iron. This will provide the physiological information required to make rational decisions about iron supplementation.
Non-invasive Measurement And Imaging Of Hepatic Iron Concentrations Using Nuclear Magnetic Resonance
Funder
National Health and Medical Research Council
Funding Amount
$341,210.00
Summary
Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample o ....Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample of the patient's liver for chemical analysis. Apart from the fact that the procedure is unpleasant and carries some risk, the measurement made by this method has some uncertainty because the liver iron concentration can vary significantly from place to place within the liver. The aim of this project is to test the validity of a new non-invasive method of measuring and imaging the liver iron concentrations of a patient. In addition, the potential to use the new technology for detecting and imaging liver cirrhosis in iron overloaded patients will be evaluated. If successful, the project may lead to a more accurate method of measuring tissue iron concentrations and eliminate the need for invasive procedures.Read moreRead less
The lung in people with the genetic disorder cystic fibrosis (CF) contains increase amounts of iron, which promotes bacterial infection. In this research project we are using mouse models of CF and airway cells obtained from people with CF to investigate the underlying mechanism of abnormal iron regulation. We are also examining the therapeutic potential of compounds that interfere with the ability of bacteria to obtain iron to see whether this can overcome antibiotic resistance.