Cellular Responses To Thrombin In Skeletal Pathology
Funder
National Health and Medical Research Council
Funding Amount
$120,775.00
Summary
Many diseases of bones, such as osteoporosis and delayed fracture repair, result from the abnormal function of bone cells. Factors regulating bone cell function are, therefore, important in maintaining a healthy skeleton, as well as in the skeleton's response to disease. The enzyme thrombin is involved in blood coagulation but also causes bone cells to alter their behaviour. Thrombin stimulates proliferation of bone-forming cells and protects them from premature death. Thrombin also stimulates t ....Many diseases of bones, such as osteoporosis and delayed fracture repair, result from the abnormal function of bone cells. Factors regulating bone cell function are, therefore, important in maintaining a healthy skeleton, as well as in the skeleton's response to disease. The enzyme thrombin is involved in blood coagulation but also causes bone cells to alter their behaviour. Thrombin stimulates proliferation of bone-forming cells and protects them from premature death. Thrombin also stimulates the breakdown of bone. We will investigate how thrombin's effects on bone cell behaviour influence the course of bone healing. We will also determine how thrombin stimulates bone breakdown and increases survival of bone-forming cells. This study will contribute to the understanding of how bone cells function in health and disease.Read moreRead less
The Role Of Protease-activated Receptor-2 In Regulation Of Bone Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$216,100.00
Summary
Many diseases of bones, such as osteoporosis and delayed fracture repair, result from the abnormal function of bone cells. Factors regulating bone cell function are, therefore, important in maintaining a healthy skeleton, as well as in the skeleton's response to disease. We have recently demonstrated the presence of a receptor called PAR-2 on bone-forming cells. We have also shown that activation of PAR-2 inhibits the development of bone-resorbing cells (osteoclasts) in response to hormones. We ....Many diseases of bones, such as osteoporosis and delayed fracture repair, result from the abnormal function of bone cells. Factors regulating bone cell function are, therefore, important in maintaining a healthy skeleton, as well as in the skeleton's response to disease. We have recently demonstrated the presence of a receptor called PAR-2 on bone-forming cells. We have also shown that activation of PAR-2 inhibits the development of bone-resorbing cells (osteoclasts) in response to hormones. We plan to investigate the mechanism of this effect, as well as to identify how PAR-2 activation modulates other responses of bone cells to hormones. Molecules that activate PAR-2 are present in bone in certain disease situations, but it is not known what activates PAR-2 in bone under normal conditions. We will identify physiological activators of PAR-2 within bone.Read moreRead less
Protease Activated Receptor 2 : A New Drug Target For Inflammatory Diseases And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$739,434.00
Summary
A new class of proteins (Protease Activated Receptors) has been found on the surfaces of many different types of cells. They are believed to be natural sensors that respond to traces of degradative enzymes called proteases. This project will create and evaluate new drugs for one of these receptors thought to regulate inflammatory diseases (e.g. arthritis, inflammatory bowel disease, asthma, pancreatitis) and cancers, while providing a better understanding of a new mechanism of immune defence.
We have discovered that activating a cell surface protein increases blood sugar levels in mice. This might occur in diabetes and liver disease. We plan to (1) learn which activators of this protein increase glucose; (2) understand how they affect glucose metabolism; (3) study new inhibitors of this protein for blocking increased glucose production; (4) test the potential therapeutic benefits of blocking this protein in mouse models of type 2 diabetes and non-alcoholic fatty liver disease.
Defining The Function Of The Thrombin Receptor, PAR4, On Human Platelets
Funder
National Health and Medical Research Council
Funding Amount
$541,402.00
Summary
Inappropriate blood clot formation is the cause of most heart attacks and strokes, and platelets are the cells in the blood which form these clots. Drugs that block platelet function, such as aspirin, are used to prevent heart attack and stroke but are frequently ineffective. We will study the signals which control platelet incorporation into clots in order to discover improved therapeutic strategies for heart attack and stroke prevention.
Proof-of-concept Studies For A Novel Anti-thrombotic Agent
Funder
National Health and Medical Research Council
Funding Amount
$632,352.00
Summary
Blood clots cause most heart attacks and strokes, and platelets are the blood cells that form these clots. Drugs that block platelet function, such as aspirin, are used to prevent heart attack and stroke but are frequently ineffective. Here, we will develop a new drug that prevents platelet incorporation into blood clots, that will be suitable for the prevention of heart attack and stroke in humans, and that may improve on existing therapies.
Cellular Contributions To PAR-2's Essential Role In Periodontal Disease
Funder
National Health and Medical Research Council
Funding Amount
$648,786.00
Summary
Periodontal disease is a disease of the gums, which ultimately causes loss of teeth. It is a debilitating condition affecting about 20% of Australian adults. PAR-2, a receptor for protein-degrading enzymes, which is present on cells in the gums, is known to be required for development of the disease. This project will investigate the mechanism of PAR-2’s involvement in periodontal disease and provide ideas for development of treatments.
Targeting Protease Activated Receptor 2 In Immunometabolism And Obesity
Funder
National Health and Medical Research Council
Funding Amount
$720,760.00
Summary
New approaches to prevent and treat obesity and metabolic diseases are National Health Priorities. Obesity is now recognised as an inflammatory disease. This project seeks new biomedical information to verify a new hypothesis that a protein (PAR2) on the surface of fat cells and immune cells is associated with the development of obesity and metabolic disorders.
Chikungunya Virus Disease; The Role Of Proteases And Their Receptors
Funder
National Health and Medical Research Council
Funding Amount
$682,716.00
Summary
Chikungunya virus (CHIKV) is a mosquito borne virus related to the Australian Ross River virus. The arthritic disease caused by these viruses is often poorly managed by current treatments. We have recently identified several proteins call proteases that circulate in the blood of infected people and promote arthritis. If successful the grant will provide new treatment options for these (and perhaps other) diseases using recently developed drugs that inhibit the activity of these proteases.