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Copper is an essential trace element with the potential for toxicity. Copper deficiency can be fatal to developing animals due to the multiple organ abnormalities caused by the reduced activity of important copper containing enzymes. Dietary copper deficiency can cause iron unresponsive anaemia in children and may contribute to heart disease and connective tissue defects in adults. A variant form of a copper containing protein is thought to contribute to Alzheimer's disease and the affected prot ....Copper is an essential trace element with the potential for toxicity. Copper deficiency can be fatal to developing animals due to the multiple organ abnormalities caused by the reduced activity of important copper containing enzymes. Dietary copper deficiency can cause iron unresponsive anaemia in children and may contribute to heart disease and connective tissue defects in adults. A variant form of a copper containing protein is thought to contribute to Alzheimer's disease and the affected protein in mad cow disease may normally play a role in copper biology of the brain. Given the importance of copper for normal health and the potential for toxicity, the levels of copper in the body are tightly regulated. There are two main sites for this regulation: the uptake of dietary copper across the intestine and the excretion of excess copper into the bile. This proposal addresses the molecular control of copper uptake in the intestine. Much of our understanding about the regulation of the uptake of copper from dietary sources was obtained prior to the era of modern molecular biology. Prof. Mercer's laboratory has recently made significant discoveries into the molecular basis of copper metabolism in human cells. Based on these findings and finding of others about copper metabolism in yeast, we have proposed a model incorporating these newly described molecules to explain how the body might regulate the uptake of copper in the intestine. We propose to investigate this model using cell culture models of the intestine and in mouse models. These studies will extend our knowledge of copper biology and may provide insight for potential treatments of copper related disorders.Read moreRead less
Elucidation Of Trafficking Of The Menkes (MNK;ATP7A) Copper-transporting ATPase In Epthelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
Copper is an essential trace element for all organisms. Copper is needed for many processes including energy metabolism, the making and maintenance of strong bones and arteries with sufficient elasticity, the synthesis of chemical transmitters in the brain and for the reactions which remove toxic free radicals. Copper is also used by the proteins involved in important neurological diseases including Alzheimers disease and mad cow disease. Menkes disease is an inherited and usually lethal copper ....Copper is an essential trace element for all organisms. Copper is needed for many processes including energy metabolism, the making and maintenance of strong bones and arteries with sufficient elasticity, the synthesis of chemical transmitters in the brain and for the reactions which remove toxic free radicals. Copper is also used by the proteins involved in important neurological diseases including Alzheimers disease and mad cow disease. Menkes disease is an inherited and usually lethal copper deficiency disorder in humans, and the diverse and detrimental symptoms of this disease related to organs and tissues described above is a stark indicator of the essentiality of copper. We have carried out extensive research on Menkes disease and in particular the Menkes protein which in normal individuals plays a major role in maintaining the copper balance in cells, i.e. enough copper to satisfy nutritional needs of cells but not too much which causes toxicity. The normal Menkes protein catalyses the transport of copper across membranes of cells to the areas where it is needed by copper-dependent enzymes and is essential for copper absorption into the body from the gut. The normal Menkes protein functions as a molecular pump. We have discovered that this protein can sense copper concentrations in the cell and when these reach potentially toxic levels it can move (traffic) via small vesicles to the plasma membrane which surrounds cells. There it pumps the excess copper out of the cell and returns to its original location. Our studies are directed to understanding the molecular mechanisms which permit this remarkable protein to achieve a copper balance in living cells. The findings will be of major significance in understanding and treating acquired and inherited diseases involving copper deficiency or copper toxicity including osteoporosis, cardiovascular disease, and Alzheimer's disease.Read moreRead less
Intracellular Trafficking Of Copper And Platinum-based Chemotherapuetics
Funder
National Health and Medical Research Council
Funding Amount
$268,328.00
Summary
Platinum-based anti cancer drugs such as Cisplatin are effective against a number of cancers of the head, colon, lungs and ovaries. Tumour resistance to these drugs has been closely associated with changes in genes that control the movement of copper in and out of cells. We hypothesize that the same genes regulate distribution of both copper and Cisplatin. By investigating these pathways, we aim to find ways to predict and prevent tumour resistance to this important anti cancer treatment.
Copper Pathways Are Altered In Parkinson’s Disease: Implications For Cell Vulnerability
Funder
National Health and Medical Research Council
Funding Amount
$341,398.00
Summary
The cause of brain cell death in Parkinson’s disease is unknown but we have shown that copper levels are reduced in the vulnerable brain regions in this disorder. As copper is vital for the normal function of key brain proteins we suggest that reduced copper contributes to cell damage in vulnerable brain regions. This project investigates why brain copper levels are reduced in the Parkinson’s disease brain and the consequences of this change for brain cell function and survival.
Development Of Therapeutic Copper Delivery Agents For Menkes Disease
Funder
National Health and Medical Research Council
Funding Amount
$651,467.00
Summary
Menkes disease does not currently have an effective treatment. The disease is caused by genetic defects that reduce copper transport into the brain and cause mental retardation and death. We have developed drugs that deliver copper into the brain and should cure Menkes disease. We aim to demonstrate that our drugs are effective in mice that have the same genetic defect as patients. Successful results will allow us to begin treating Menkes disease patients to determine if we can cure the disease.