Characterisation Of An In-vivo Thrombosis Animal Model Of The Antiphospholipid Syndrome Using Beta 2-GPI KO Mice
Funder
National Health and Medical Research Council
Funding Amount
$467,310.00
Summary
The antiphospholipid syndrome is an autoimmune condition characterised by the presence of thrombosis and recurrent miscarriage. The disorder is characterised by circulating antibodies which bind a protein in the blood known as Beta 2- Glycoprotein I. This protein has been thought to be important in controlling the clotting system in humans and other mammals. However, the experiments that have been designed to look at the function of this protein have looked at its function in the test tube. The ....The antiphospholipid syndrome is an autoimmune condition characterised by the presence of thrombosis and recurrent miscarriage. The disorder is characterised by circulating antibodies which bind a protein in the blood known as Beta 2- Glycoprotein I. This protein has been thought to be important in controlling the clotting system in humans and other mammals. However, the experiments that have been designed to look at the function of this protein have looked at its function in the test tube. The exact role of Beta 2-GPI in the body, has not been determined. A way of looking at the function of this protein in the body would be if you eliminated the protein from an animal such as a mouse. By sophisticated molecular biology techniques we have been able to eliminate the gene for Beta 2-GPI in mice thus deriving mice that do not produce any Beta 2-GPI protein. These mice are called Beta 2-GPI knockout mice and are an ideal animal model to examine the function of Beta 2-GPI. Experiments outlined in this proposal will examine the role of Beta 2-GPI in clotting, atherosclerosis and the effect of production of antibodies to Beta 2-GPI in these animals. In addition, since current treatment of patients that have these antibodies consists of long term, sometimes lifelong, treatment with drugs that thin the blood which have potential side effects, we are investigating a novel treatment approach which is directed at eliminating the antibodies that bind Beta 2-GPI. If one could eliminate the antibody production to Beta 2-GPI by these patients there would not be a need for lifelong treatment with drugs such as heparin which thins the blood and there would thus be a reduction in the problems with these medications. To do this we have obtained a specialised chemically modified portion of Beta 2-GPI that has already been shown to work in preliminary experiments.Read moreRead less
Pathophysiological Mechanisms In The Antiphospholipid Syndrome: B2GPI Regulation Of FXI-FXIa
Funder
National Health and Medical Research Council
Funding Amount
$530,591.00
Summary
The major protein that the antibodies in the antiphospholipid syndrome (APS) bind is called Beta 2-GPI. Antibodies to Beta 2-GPI are associated with recurrent miscarriage, intrauterine growth retardation, clots and stroke. Treatment of patients with the APS are treated with medication that has significant side effects. The development of more targeted and effective therapies for the APS requires a greater understanding of how the antibodies cause their effects, which is addressed in this study.
Does Mobile DNA Activity Contribute To Reproductive Failure?
Funder
National Health and Medical Research Council
Funding Amount
$389,076.00
Summary
One in four pregnancies in Australia will end in miscarriage. Infertility affects about 15% of Australian couples and is highly correlated with increasing maternal age. In this study, we will use cutting edge single-cell genomic approaches to investigate the activity of mobile DNA elements or “jumping genes” as a previously unexplored cause of reproductive failure, including spontaneous miscarriage and age-related female infertility.
Most pregnancy complications, including miscarriage, pre-eclampsia, fetal growth restriction and stillbirth, stem from poor development of the placenta early in pregnancy. Restricted fetal growth in the uterus increases the babies risk of cardiovascular and other disorders in later life. This research will investigate whether Corin, an enzyme discovered in the heart, helps the mothers uterus prepare for pregnancy. Disruptions in Corin production during early pregnancy is likely to be involved in ....Most pregnancy complications, including miscarriage, pre-eclampsia, fetal growth restriction and stillbirth, stem from poor development of the placenta early in pregnancy. Restricted fetal growth in the uterus increases the babies risk of cardiovascular and other disorders in later life. This research will investigate whether Corin, an enzyme discovered in the heart, helps the mothers uterus prepare for pregnancy. Disruptions in Corin production during early pregnancy is likely to be involved in major pregnancy complications and loss.Read moreRead less
Decidual-trophoblast Interactions Critical For Optimal Pregnancy Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$612,927.00
Summary
This proposal seeks to identify the critical maternal and embryonic placental factors that regulate the formation of a healthy placenta and thus a healthy pregnancy and baby. Currently there is no way of identifying whether the placenta is forming adequately. The proposed studies are a necessary first step in identifying therapeutic targets for diseases associated with a poorly formed placenta, such as preeclampsia.
Triple Therapy Prevention Of Recurrent Intracerebral Disease EveNts Trial (TRIDENT)
Funder
National Health and Medical Research Council
Funding Amount
$5,256,292.00
Summary
Acute intracerebral haemorrhage (ICH) is a serious form of stroke. Survivors of ICH are at high risk of repeat events. Blood pressure lowering is a very important to prevent repeat events but data shows blood pressure is poorly controlled in these patients. In this research we investigate whether an approach that uses a 'triple pill' strategy (3 low dose BP drugs in one pill) in ICH patients with mild to moderate hypertension can decrease major cardiovascular events.
Contribution Of Ovarian Cancer Stem Cells To Chemoresistance And Recurrent Disease.
Funder
National Health and Medical Research Council
Funding Amount
$378,940.00
Summary
Ovarian cancer is the most lethal gynaecological cancer. Previously, we showed that cancer stem cells are the “beating heart” of the ovarian cancer and are responsible for drug resistance and tumour relapse. The ineffective targeting of these cells by chemotherapy is accountable for the poor clinical outcomes in ovarian cancer patients. This project will define the molecular signals involved in maintenance of cancer stem cells and develop targeted therapies against these cells.
Antiphospholipid Antibodies, Beta 2-Glycoprotein I And Control Of Coagulation.
Funder
National Health and Medical Research Council
Funding Amount
$471,000.00
Summary
Antiphospholipid antibodies are associated with an autoimmune condition characterised by the presence of clots and recurrent miscarriages. Although the name implies that the antibodies bind phospholipid the disorder is characterised by circulating antibodies which bind a protein in the blood known as Beta 2-Glycoprotein I. The exact role of Beta 2-GPI in the body has not been determined, although there are numerous studies looking at this protein. This protein has been thought to be important in ....Antiphospholipid antibodies are associated with an autoimmune condition characterised by the presence of clots and recurrent miscarriages. Although the name implies that the antibodies bind phospholipid the disorder is characterised by circulating antibodies which bind a protein in the blood known as Beta 2-Glycoprotein I. The exact role of Beta 2-GPI in the body has not been determined, although there are numerous studies looking at this protein. This protein has been thought to be important in controlling the clotting system in humans and other mammals. The evidence for this has been contradictory, however, we have recently made a major new finding on the function of this protein on the clotting system. We will be using sophisticated molecular biology techniques to further characterise the role that Beta 2-GPI has in controlling clotting factors in the body. We have been able to eliminate the gene for Beta 2-GPI in mice thus deriving mice that do not produce any Beta 2-GPI protein. These mice are called Beta 2-GPI knockout mice and will be an ideal animal model to examine the function of Beta 2-GPI and its new role in controlling the clotting cascade by targetting a specific part of this pathway. In addition, these findings may be able to provide new information on how Beta 2-GPI controls clotting factors and the effect of antiphospholipid antibodies on this system, which may lead to new treatments for antiphospholipid antibodies and more generally clotting disorders.Read moreRead less