Manganese is an essential trace element for normal health. However in some medical conditions manganese can build up in the brain and cause a Parkinson's like disease called manganism. Experimental evidence suggests that the liver plays an important role in the development of manganism and this project aims to explore the way the liver handles manganese in health and disease. These studies may assist in understanding how manganism develops.
Studies Of A Novel Manganese Transporter In Lysosomes And Its Implications In Niemann-Pick Type-C Disease
Funder
National Health and Medical Research Council
Funding Amount
$527,036.00
Summary
Niemann-Pick type-C disease is a devastating disease affecting child central nervous system. It is due to too much build up of cholesterol in the lysosomal compartment of cells. Recent studies indicate that bivalent cations are involved in the development of the disease. We recently discovered a manganese transporter in the lysosomal compartment and its interaction of the a protein that causing the disease. We will elucidate how manganese transporter controls trace metal balance and may prevent ....Niemann-Pick type-C disease is a devastating disease affecting child central nervous system. It is due to too much build up of cholesterol in the lysosomal compartment of cells. Recent studies indicate that bivalent cations are involved in the development of the disease. We recently discovered a manganese transporter in the lysosomal compartment and its interaction of the a protein that causing the disease. We will elucidate how manganese transporter controls trace metal balance and may prevent the disease.Read moreRead less
Novel Insights Into The Molecular Mechanisms Of Manganese Recognition And Acquisition By Pathogenic Bacteria.
Funder
National Health and Medical Research Council
Funding Amount
$843,035.00
Summary
Streptococcus pneumoniae is the world’s foremost bacterial pathogen. In Australia, bacterial infections are responsible for more than 9000 deaths every year, and the economic burden associated with treating diseases arising from pneumococcal infections is more than $4 billion annually. This proposal aims to define the molecular basis of how bacteria scavenge manganese from the host environment. This knowledge will provide the foundation for next generation antimicrobial therapeutics.
Zinc: The Molecular Basis Of It�s Toxicity To Gram-positive Pathogens And It�s Exploitation By The Innate Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$588,398.00
Summary
Zinc in excess is toxic to bacteria, and the release of zinc is an important part of the immune response. Dietary zinc deficiency leads to increased susceptibility to pathogenic bacteria. How zinc affords protection has remained a mystery. We have identified a novel mechanism in 2 priority human pathogens by which zinc competes for the essential metal ion manganese. We will elucidate the molecular details of this mechanism and how it is harnessed by the immune system.