Macrophages are important cells at the front-line of immunity where one of their main roles is to release anti-bacterial proteins. We will study the macrophage molecules, subcellular organelles and pathways that help to release these proteins to kill bacteria and fight infection. Our studies will identify new cellular targets for boosting immunity and treating inherited diseases with defective macrophage function.
Regulation Of The Nedd4 Family Of Ubiquitin Ligases By Adaptor And Accessory Proteins In Normal Physiology And In Disease
Funder
National Health and Medical Research Council
Funding Amount
$609,424.00
Summary
In part this proposal is to understand how the body controls iron uptake through iron transporters DMT1 and Nramp1. We will study the regulation of these transporters by proteins called Ndfip1, Ndfip2 and arrestins. We will also study the functions of these proteins in controlling ubiquitination, a fundamental process required for cellular homeostasis. The results from this study may ultimately contribute to the development of novel therapies for certain human diseases.
Autophagy: A New Pathway For Presenting Antigen In Dendritic Cells.
Funder
National Health and Medical Research Council
Funding Amount
$444,973.00
Summary
Microbes are chopped up and digested before being displayed to the immune system. Here we will investigate a new pathway termed _autophagy� that helps cells to digest material for immune display.
MOLECULAR CELL BIOLOGICAL ANALYSIS OF CAVEOLIN SECRETION
Funder
National Health and Medical Research Council
Funding Amount
$536,657.00
Summary
Aggressive forms of prostate cancer are associated with the release of a protein, called caveolin, from the cancerous cells. Caveolin is normally embedded in the cell surface and drives the formation of microscopic pits termed caveolae. In this proposal we will investigate how caveolin is secreted with a long-term goal of preventing the secretion, or the action, of caveolin.