Investigation Of A New Platelet Contractile Mechanism Regulating Thrombus Stability
Funder
National Health and Medical Research Council
Funding Amount
$499,670.00
Summary
Platelets are small blood cells that form clots to stop bleeding. We have found a new contraction process that causes tight packing of platelets in a clot, enabling the clot to avoid detachment under blood flow. We will study this process and explore the possibility that its inhibition may provide a new way in which to loosen clots, promoting their removal. These studies will provide new insight into clot stability, and may provide clinical benefit in the delivery of clot dissolving agents .
Investigate Novel Functional Roles For PI 3-kinases In Platelets.
Funder
National Health and Medical Research Council
Funding Amount
$537,215.00
Summary
Platelets are small blood cells which have a well defined role in blood clotting. There is a growing body of evidence that platelets play an important role in a broad range of inflammatory diseases, and we have identified a key role for the platelet PI3K enzyme in controlling the pro-inflammatory function of platelets. This grant will examine the importance of PI3K in health and disease, and examine the potential therapeutic benefits of inhibiting platelet PI3K.
Investigate The Role Of PAF And CD40 Ligand In Regulating The Proinflammatory Properties Of Platelets
Funder
National Health and Medical Research Council
Funding Amount
$507,270.00
Summary
The cells of the blood play an important role in maintaining healthy blood vessels. We are interested in two types of blood cells, platelets and leukocytes, which together play a key role in vessel maintenance, by promoting blood clot formation and vessel wall repair following injury. However, while critical for normal blood vessel maintenance, these cells have also been demonstrated to contribute to disease states including atherosclerosis, thrombosis and inflammatory airway diseases. Underlyin ....The cells of the blood play an important role in maintaining healthy blood vessels. We are interested in two types of blood cells, platelets and leukocytes, which together play a key role in vessel maintenance, by promoting blood clot formation and vessel wall repair following injury. However, while critical for normal blood vessel maintenance, these cells have also been demonstrated to contribute to disease states including atherosclerosis, thrombosis and inflammatory airway diseases. Underlying the function of both blood cell types is their ability to stick (or adhere) to each other. However the way in which they coordinate this adhesion is very complex. New information from our laboratory has demonstrated that the sticky behaviour of each cell type is spatially and temporally regulated, and may involve may factors both inside and outside of the cells themselves. Our studies aim to define the key components regulating the 'stickiness' of these blood cells, in order to undertand how they contribute to maintaining healthy vessel walls, but also how their stickiness may also contribute to the promotion of diseased vessels. This information will not only increase our knowledge of the factors that regulate blood clot formation, but may also assist in the development of new therapies to prevent and-or treat vessel disease.Read moreRead less
Investigation Of A Novel Role For Factor XIII In Regulating The Adhesive Function Of Platelets
Funder
National Health and Medical Research Council
Funding Amount
$243,000.00
Summary
Platelets are small specialised blood cells that are extremely important for the normal formation of blood clots and for the repair of injured blood vessels. We are studying the processes that allow platelets to stick to the site of vessel injury and to each other to form stable blood clots. If this process proceeds unchecked, harmful blood clots can form which block blood vessels and cause heart attacks and strokes. There are many factors, both inside and outside platelets, which control how bi ....Platelets are small specialised blood cells that are extremely important for the normal formation of blood clots and for the repair of injured blood vessels. We are studying the processes that allow platelets to stick to the site of vessel injury and to each other to form stable blood clots. If this process proceeds unchecked, harmful blood clots can form which block blood vessels and cause heart attacks and strokes. There are many factors, both inside and outside platelets, which control how big and how fast a blood clot grows and whether it becomes harmful enough to cause a blood vessel blockage. One of these factors is the level of platelet 'stickiness' or 'reactivity'. We are working towards a better understanding of how platelet reactivity is regulated. Specifically, we believe we have identified a new factor which keeps blood clots at a size that is not harmful to cause blood vessel blockade. This information will not only increase our knowledge of blood clot formation in health and disease but also may help in the development of new therapies for the prevention of heart attack and stroke.Read moreRead less
Investigation Of Negative Signalling Mechanisms In Platelets
Funder
National Health and Medical Research Council
Funding Amount
$292,500.00
Summary
Platelets are specialised blood cells essential for normal blood clotting. We are studying the processes that control platelets sticking to the exposed vessel wall, to each other and to other cells to form a stable blood clot at the site of injury to stop bleeding. The same processes, when unchecked, could lead to the formation of harmful large blood clots that may block blood vessels in the heart or brain, resulting in heart attack or stroke. Platelets stick to the blood vessel wall and each ot ....Platelets are specialised blood cells essential for normal blood clotting. We are studying the processes that control platelets sticking to the exposed vessel wall, to each other and to other cells to form a stable blood clot at the site of injury to stop bleeding. The same processes, when unchecked, could lead to the formation of harmful large blood clots that may block blood vessels in the heart or brain, resulting in heart attack or stroke. Platelets stick to the blood vessel wall and each other through sticky proteins called receptors on the cell surface. Receptors are able to bind to their specific ligands such as von Willebrand factor (vWf) and collagen which become exposed following vessel wall damage. The interaction between the ligands and receptors will trigger many biochemical changes within platelets, called signal transduction, that control platelet stickiness. The aim of this research project is to investigate the signalling processes that are utilised by the major platelet receptor called integrin alpha IIb beta 3. We are particularly interested in identifying the negative signalling process utilised by this receptor to dampen the positive signals required for platelet stickiness, to achieve a balanced clotting process. The identification of these specific signalling pathways will not only increase our knowledge of blood clot formation in health and disease, but also help develop potential new therapies for the prevention of heart diseases and strokes.Read moreRead less
Investigation Of A New Rheology Dependent Platelet Aggregation Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$509,447.00
Summary
We plan to examine a new mechanism promoting blood clot formation that involves the clumping (aggregation) of blood platelets. Our central hypothesis is that disturbances of blood flow, as occurs in diseased arteries, activates this clotting mechanism through a unique platelet activation process. Defining this new activation mechanism has the potential to lead to new approaches to prevent blood clot formation in patients with heart disease.