Factor XII Dependent Coagulation, Thrombin And Platelet Glycoprotein 1ba In Arterial Thrombosis And Bleeding Disorders
Funder
National Health and Medical Research Council
Funding Amount
$104,664.00
Summary
Clot formation is the key event underlying heart attacks and strokes. There is new data that Factor XII (FXII) can play an important role in clot formation-thrombosis. We aim to examine the role FXII plays in clot formation, in particular the role of FXII in thrombin generation, which is the central event of clot formation, and its interaction with platelet glycoprotein 1ba (another important molecule in thrombosis). New insights into clotting and new therapies can result from our research.
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.
Autoimmune-based thrombocytopenia can be a life-threatening adverse event associated with viral load, surgery, drug therapies or the use of the anticoagulant, heparin. This grant will define mechanisms of anti-platelet antibody-dependent platelet activation and assess shedding of platelet-specific glycoprotein (GP)VI as an immediate consequence of this activation, provide a new strategy for evaluating risk of thrombosis in HIT.
Molecular And Cellular Mechanisms Of Skeletal Disease Mediated By Plasma Cell Dyscrasias
Funder
National Health and Medical Research Council
Funding Amount
$432,750.00
Summary
Osteolytic and osteosclerotic lesions of bone are common sequelae of primary and secondary bone cancers, including cancers of hematological origin. There is now strong evidence that tumor cells perturb the local balance between bone resorption and formation, and in cases of osteolysis, cause increased osteoclast (OC)-mediated bone resorption without a matching amount of bone formation. This proposal arises from our extensive clinical and basic science experience with multiple myeloma (MM) in add ....Osteolytic and osteosclerotic lesions of bone are common sequelae of primary and secondary bone cancers, including cancers of hematological origin. There is now strong evidence that tumor cells perturb the local balance between bone resorption and formation, and in cases of osteolysis, cause increased osteoclast (OC)-mediated bone resorption without a matching amount of bone formation. This proposal arises from our extensive clinical and basic science experience with multiple myeloma (MM) in addition to other skeletal tumors, and our strong background in both OC and osteoblast biology. MM is a hematological malignancy characterised by plasma cell dyscrasia, which typically causes progressive and severe destruction of the skeleton, with accompanying bone pain, fracture and finally, hypercalcaemia of malignancy. Two related diseases, MGUS and POEMS, have been chosen for study because of their key similarities and differences with MM, and are likely to shed new light on the activities of MM in the bone. MGUS does not cause identifiable bone defects, whereas POEMS can give rise to both osteolytic and osteosclerotic lesions. Comparison of these conditions will uniquely enable us to examine why these seemingly related neoplasms are able to mediate disparate skeletal disease states. Primarily, and since there are few curative therapies for MM at present, our proposed studies are designed to identify targets for therapy that will treat the most serious manifestation of this disease, namely its destruction of bone tissue.Read moreRead less
The Molecular And Cellular Mechanisms Responsible For The Skeletal Complications Associated With Multiple Myeloma.
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
Multiple myeloma is an incurable disease of the antibody-producing B cell. Patients with MM, nearly always present with bone pain and unexplained bone fractures. These fractures are caused by the cancerous MM B cells, which are found in large numbers in discrete pockets throughout the bone marrow, close to the inner bone surface. The way that the cancerous B cells cause the local bone lesions is thought to be through the heightened activation of recruitment of osteoclasts. Osteoclasts are cells ....Multiple myeloma is an incurable disease of the antibody-producing B cell. Patients with MM, nearly always present with bone pain and unexplained bone fractures. These fractures are caused by the cancerous MM B cells, which are found in large numbers in discrete pockets throughout the bone marrow, close to the inner bone surface. The way that the cancerous B cells cause the local bone lesions is thought to be through the heightened activation of recruitment of osteoclasts. Osteoclasts are cells which normally, in a controlled manner, resorb bone as part of the ongoing process of new bone formation. We propose that myeloma cells, which exhibit characteristics of osteoclasts, home to sites in the bone marrow and initiate this bone breakdown and furthermore secrete factors required for osteoclast maturation and activity. We believe that these molecules include the recently defined molecule, termed osteoclast differentiation factor, which is normally produced by bone-producing cells known as osteoblasts. Moreover, we feel that myeloma B cells alter the function of osteoblast cells, which results in a decrease in bone formation. Finally, we propose that this disease and its associated bone defects originate from changes in the expression of a number of genes. The results from theses studies should provide a greater understanding of the way in which this B cell cancer originates and how it causes bone defects. This will lead to the development of better treatments to improve the survival of patients with MM, and will lead to therapies to prevent the associated bone complications.Read moreRead less
Tissue factor is a central and major player in the clotting process. It exists in both active and inactive forms. The active form initiates clot formation. How it gets activated is one of the most important unanswered questions in this area of research. Our aim is to discover tissue factorÍs mechanism of activation. The outcome will provide more specific targets for therapeutic drug development for cardiovascular disease, strokes and deep venous thrombosis.