Blood clotting is the underlying cause of heart attacks and strokes. We have discovered that the protein, ERp5, is essential for normal blood clotting. Our preliminary findings indicate that ERp5 controls the function of blood platelets in clotting. Our overall aim is to elucidate how ERp5 regulates platelet function. It is crucial that we understand how ERp5 functions in blood clotting if we are to effectively target it in disease.
Investigating The Link Between Oxidative Stress And Biomechanical Integrin Activation In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$653,742.00
Summary
Diabetes represents a serious healthcare problem globally. A large proportion of deaths associated with diabetes can be attributed to the development of blood clots in the circulation of the heart and brain (heart attack/stroke). The blood clotting mechanism is ‘hyperactive’ in diabetes, although the reason for this is not well defined. In this proposal we will investigate a new mechanism promoting blood clots, and will investigate innovative approaches to reduce this clotting mechanism.
The Role Of The Platelet Glycoprotein Ib Alpha Cytoplasmic Domain In Thrombosis
Funder
National Health and Medical Research Council
Funding Amount
$600,230.00
Summary
Our studies aim to provide a better understanding of the factors that make platelets sticky, because this is important not only for normal blood clot formation but also in the development of harmful blood clots (thrombosis). Improving our understanding of these processes will add significantly to our knowledge of how blood clotting is controlled. This information is relevant to many human diseases including heart attack and stroke and will help us to develop drugs to prevent these diseases.
Investigation Of Dok2 And Dok1 Adapter Proteins, In The Negative Regulation Of Integrin AIIbb3 Platelet Signalling.
Funder
National Health and Medical Research Council
Funding Amount
$446,831.00
Summary
Blood platelets play a key role in blood clot formation, prevention of bleeding and are the principal elements contributing to thrombosis leading to heart attack and stroke. Numerous studies have defined pathways promoting platelet activity, however less is known about their negative regulation. In this grant we will examine the role for proteins, Dok2 and Dok1, in the negative regulation of platelets, hoping this leads to development of novel therapeutics for prevention of cardiac disease.
Investigation Of Novel Mechanisms Regulating Platelet Reactivity During Haemostasis And Thrombosis
Funder
National Health and Medical Research Council
Funding Amount
$221,210.00
Summary
Platelets are small specialised blood cells that are critical for normal blood clotting and blood vessel repair following injury. We are studying the processes that enable platelets to stick to the site of vessel injury and to each other to form a stable blood clot. These very processes, when unchecked, are responsible for the formation of harmful blood clots in the bloodstream that may block blood vessels in the heart or brain and result in a heart attack or stroke. Many factors control how big ....Platelets are small specialised blood cells that are critical for normal blood clotting and blood vessel repair following injury. We are studying the processes that enable platelets to stick to the site of vessel injury and to each other to form a stable blood clot. These very processes, when unchecked, are responsible for the formation of harmful blood clots in the bloodstream that may block blood vessels in the heart or brain and result in a heart attack or stroke. Many factors control how big and how rapidly a blood clot grows and whether it becomes harmful enough to lead to a heart attack or stroke. One of these factors is the level of platelet 'reactivity' or 'stickiness' . We are working towards a better understanding of how platelet reactivity is regulated and how this dictates the potential of a blood clot to become harmful. This knowledge will not only increase our knowledge of blood clot formation in health and disease, but also help in the development of new therapies for the prevention of heart attack and stroke.Read moreRead less
Formation of clots to prevent blood loss is initiated by the platelet receptors, glycoprotein (GP)Ib-IX-V and GPVI. Unfortunately, there is a gap in our knowledge regarding the events immediately following activation of these receptors and the known downstream signalling. We have identified a novel binding partner for these platelet receptors, which we believe links reactive oxygen species to platelet signalling events. This opens new avenues for therapies to prevent aberrant clotting.
Investigation Of Activating Signals Transmitted During Platelet Aggregation
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
The blood platelet is a specialized adhesive cell that plays a critical role in the normal blood clotting process through its ability to rapidly adhere to sites of vascular damage. Upon injury to a blood vessel, platelets undergo a number of internal signalling process and strucural changes that allow them to rapidly adhere to the area of damage. Following this initial adhesion process, platelet-platelet interactions occur leading to the development of a stable blood clot. Our research studies a ....The blood platelet is a specialized adhesive cell that plays a critical role in the normal blood clotting process through its ability to rapidly adhere to sites of vascular damage. Upon injury to a blood vessel, platelets undergo a number of internal signalling process and strucural changes that allow them to rapidly adhere to the area of damage. Following this initial adhesion process, platelet-platelet interactions occur leading to the development of a stable blood clot. Our research studies are aimed at understanding more closely the factors that regulate platelet-platelet interactions during the course of blood clot formation, since this is an important determinant not only of normal clot formation, but also in the development of harmful blood clots (thrombi) associated with the onset of diseases such as heart attack and stroke. Our particular focus is on the way in which platelets communicate to one another during the course of platelet thrombus development. Particulary, we are interested in the role of calcium as a signal mediating platelet-platelet communication. We believe that the transmission of these calcium signals may be the key signaling mediator of blood clot formation and normal haemostasis.Read moreRead less
Redefining The Pro-thrombotic Mechanism Of Von Willebrand Factor
Funder
National Health and Medical Research Council
Funding Amount
$750,005.00
Summary
Blood clotting is the underlying cause of heart attacks and strokes. The blood protein, von Willebrand factor, is a critical player in blood clotting and impairment of its function is life threatening. We have discovered that there are three forms of VWF in human blood that have different functions in blood clotting. Characterisation of these different forms will likely lead to new blood clotting diagnostics and improved therapies.