Phagocytic Clearance And Immune Activation In Malaria
Funder
National Health and Medical Research Council
Funding Amount
$564,644.00
Summary
Macrophage white blood cells clear malaria infected cells by eating them, by three routes- by recognising ANTIBODIES or COMPLEMENT on the cell surface, or by the cell BINDING directly to the macrophage. Each has different results, such as amounts of cytokines produced. Cytokines clear malaria; in excess they can cause fatal immune pathology. We will investigate how variations in amount of antibody and complement and route of uptake of malaria infected cells might determine malaria outcome.
Kidney Injury As A Determinant Of Macrophage Phenotype And Efficacy For Treating Chronic Kidney Disease (CKD)
Funder
National Health and Medical Research Council
Funding Amount
$548,341.00
Summary
Chronic kidney disease (CKD) is a major cause of death and disability in the Australian population. Current treatments for CKD are non-specific and frequently ineffective. As a consequence, kidney failure progresses to the stage where patients require dialysis or tranplantation to remain alive. Every year more than 1700 Australians require kidney replacement therapy for this reason and many more die of kidney failure or its complications. Macrophage infiltration of kidneys is characteristic of C ....Chronic kidney disease (CKD) is a major cause of death and disability in the Australian population. Current treatments for CKD are non-specific and frequently ineffective. As a consequence, kidney failure progresses to the stage where patients require dialysis or tranplantation to remain alive. Every year more than 1700 Australians require kidney replacement therapy for this reason and many more die of kidney failure or its complications. Macrophage infiltration of kidneys is characteristic of CKD, and it has been assumed that macrophages cause damage. However, we have shown that certain types of macrophages can reduce kidney damage. This project will explore whether macrophage type can be switched from that causing damage to that reducing injury, with the aim of using this approach to treat CKD.Read moreRead less
Role Of Macrophages Residing On The Bone Surface In Bone Renodelling And Repair
Funder
National Health and Medical Research Council
Funding Amount
$54,466.00
Summary
To determine if the F4-80+ macrophages that reside on the bone surface, bone lining macrophages (BLMs) are responsible for the detection of apoptotic osteocyte cells and subsequently initiate bone remodelling in response to bone damage.
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.
After infection with viruses, parasites and bacteria the protein SerpinB2 becomes very abundant in macrophages, which are white blood cells involved in inflammation. Unfortunately, what this protein is doing is very unclear. We have found that macrophage SerpinB2 dampens the responses of other immune cells. This grant aims to determine how this is achieved and thereby help resolve the role of this protein in a number of diseases such as cancer, lupus, asthma and pre-eclampsia.
This project is based upon the observation that the mammalian immune system can distinguish between its own genetic material (DNA) and the DNA of infectious agents such as bacteria. This has implications for understanding how the immune system copes with infection, and also for design of new therapies and vaccines. Our central aim is to define how the recognition system for foreign DNA works. The cells that respond most vigorously to foreign DNA are large white blood cells called macrophages. We ....This project is based upon the observation that the mammalian immune system can distinguish between its own genetic material (DNA) and the DNA of infectious agents such as bacteria. This has implications for understanding how the immune system copes with infection, and also for design of new therapies and vaccines. Our central aim is to define how the recognition system for foreign DNA works. The cells that respond most vigorously to foreign DNA are large white blood cells called macrophages. We are investigating how a key protein that is required for these responses functions and what genes it turns on. The type of immune responses initiated by foreign DNA may be useful in treatment of allergies and cancer, and for improving vaccinations.Read moreRead less