Development And Prototype Manufacture Of A High-throughput CD4 T-cell Test For Management Of HIV/AIDS Infections
Funder
National Health and Medical Research Council
Funding Amount
$163,150.00
Summary
CD4 T-cells are the target of HIV-AIDS infection, and monitoring of HIV-infected patients for these cells is an essential part of disease management. Current CD4 testing methods rely on expensive equipment and reagents and high levels of training, or else they have low throughput that limits their use. This project will develop a standard laboratory assay method for testing CD4 T-cells, increasing the access of patients to CD4 testing, and to HIV therapy, worldwide.
Development Of Novel Anti-cancer And Immunosuppressive Drugs Derived From Pineapple Stems
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
We have discovered two molecules from pineapple stems that show anti-tumour activity in laboratory studies. One molecule, called ananain, blocks a cancer causing protein called Ras, which is defective in approximately 30% of all cancers. The other molecule, called canizain, stimulates the bodies own immune system to target and kill cancer cells. The proposed research seeks to provide proof of concept of the use of ananain and canizain as drug development targets. Once this early proof of princip ....We have discovered two molecules from pineapple stems that show anti-tumour activity in laboratory studies. One molecule, called ananain, blocks a cancer causing protein called Ras, which is defective in approximately 30% of all cancers. The other molecule, called canizain, stimulates the bodies own immune system to target and kill cancer cells. The proposed research seeks to provide proof of concept of the use of ananain and canizain as drug development targets. Once this early proof of principle phase has been completed, we believe that ananain and canizain would be extremely attractive targets for further investment by a major pharmaceutical company.Read moreRead less
Developing Novel Anti-cancer Agens By High Throughput Chemical Screens For Small Molcules That Modulate The Pro-survival
Funder
National Health and Medical Research Council
Funding Amount
$125,000.00
Summary
Cancer is the second commonest cause of deaths in our community. Unfortunately, treatment often fails or causes unwanted side effects. This proposal seeks to discover and develop a novel class of anti-cancer drugs that act by directly activating programmed cell death (apoptosis). The Bcl-2 proteins are key regulators of cell death and by exploiting knowledge about these prime targets for cancer therapy, we aim to discover drugs that are potentially of considerable medical and commercial value.
Production Of A Novel Humanised Anti Dendritic Cell Therapeutic Antibody For Graft Versus Host Disease
Funder
National Health and Medical Research Council
Funding Amount
$202,500.00
Summary
A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be use ....A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be useful for the prevention of rejection in solid organ transplantation. If successful, it will selectively control graft versus host disease, without compromising the essential anti-viral immunity and desired anti-leukemia activity of the graft.Read moreRead less
An Inside-out Approach To Muscosal Vaccination: MAdCAM Targeting
Funder
National Health and Medical Research Council
Funding Amount
$174,250.00
Summary
The mucosal surfaces are the entry site for many pathogens (eg. cholera, rotaviruses, helicobacter, SARS and sexually transmitted diseases including HIV infections). The ideal vaccine would elicit both systemic and mucosal immune response, enhancing immunity at this first line of defence. The oral route has formidable barriers to antigen uptake such as digestive enzymes, commensal microbes, mucous layers and gastric acid. Our strategy targets the vascular addressin found in immune tissues of the ....The mucosal surfaces are the entry site for many pathogens (eg. cholera, rotaviruses, helicobacter, SARS and sexually transmitted diseases including HIV infections). The ideal vaccine would elicit both systemic and mucosal immune response, enhancing immunity at this first line of defence. The oral route has formidable barriers to antigen uptake such as digestive enzymes, commensal microbes, mucous layers and gastric acid. Our strategy targets the vascular addressin found in immune tissues of the gut (called MAdCAM) so that the vaccine is linked to an antibody against MAdCAM. Thus for the first time we believe that a parenteral vaccine ie. injected im or iv (bypassing the oral barriers) can induce mucosal immunity.Read moreRead less
GM-CSF Regulation Of Preimplantation Embryo Development
Funder
National Health and Medical Research Council
Funding Amount
$481,320.00
Summary
Treatment of infertility using IVF technology has been enormously successful. However, there are major concerns regarding the high incidence of multiple pregnancies (caused by the transfer of more than one embryo) and the potential adverse health outcome of adults conceived from this technology. Multiple pregnancies place both mother and infant at enormous risks, with increased obstetrics care, prematurity, increased neonatal care and neurological disorders such as cerebral palsy. This can be ov ....Treatment of infertility using IVF technology has been enormously successful. However, there are major concerns regarding the high incidence of multiple pregnancies (caused by the transfer of more than one embryo) and the potential adverse health outcome of adults conceived from this technology. Multiple pregnancies place both mother and infant at enormous risks, with increased obstetrics care, prematurity, increased neonatal care and neurological disorders such as cerebral palsy. This can be overcome simply by the transfer of a single embryo. However, patient and clinical expectations are that single embryo transfer should be achieved with little to no reduction in pregnancy rate, and currently this is not possible because our methods for culturing embryos are inadequate. Studies in animals suggest that laboratory growth of mammalian embryos can lead to small-for-gestational age babies (even when the effect of multiple births is taken into consideration). This backed by recent studies which agree that babies born from IVF are smaller than expected. This might lead to health problems in later life, as smallness at birth is associated with higher risks of cardiovascular disease and diabetes, especially as age progresses beyond 40 years. However, the oldest IVF child is currently 23 years of age. Previously we have shown that a protein growth factor, called granulocyte-macrophage colony-stimulating factor (GM-CSF), found normally in the reproductive tract, has dramatic beneficial effects on human and mouse embryos grown in the laboratory. Furthermore, we have shown in mice that embryo exposure to GM-CSF alleviates the detrimental side effects of in vitro culture on foetal growth and body structure after birth. Our research is now focussed on understanding why this protein is beneficial to embryo growth and to test if we can increase pregnancy rates and produce normal healthy infants from the transfer of single embryos treated with GM-CSF.Read moreRead less
Development Fo A Novel Treatment For Asthma: The Identification Of Lead Small Molecule Antagonists Of The IL-13/IL-13 Re
Funder
National Health and Medical Research Council
Funding Amount
$99,750.00
Summary
In developed countries Asthma ranks among the most common chronic illnesses. Over two million Australians now have this condition and the cost to our community is estimated to be in excess of $720 million per annum. In 1996 researchers at The Walter and Eliza Hall Institute discovered a new member of the cytokine receptor family, IL-13Ra1, which further research has strongly implicated in the pathology of this disease. The main goal of the proposed research is to discover small molecule antagoni ....In developed countries Asthma ranks among the most common chronic illnesses. Over two million Australians now have this condition and the cost to our community is estimated to be in excess of $720 million per annum. In 1996 researchers at The Walter and Eliza Hall Institute discovered a new member of the cytokine receptor family, IL-13Ra1, which further research has strongly implicated in the pathology of this disease. The main goal of the proposed research is to discover small molecule antagonists of IL-13Ra1 and to identify those suitable for development as novel asthma therapeutics.Read moreRead less
Developing Anti-Inflammatory Drugs Based On Inhibition Of A Human Enzyme
Funder
National Health and Medical Research Council
Funding Amount
$160,000.00
Summary
Human secretory phospholipases A2 have been associated with inflammatory diseases for many years, yet very few truly potent inhibitors of the human enzymes sPLA2 (isoforms IIa, V or X) are known due to a range of problems relating to the lipid nature of substrates, unavailability of enzymes, enzyme assays that do not correlate with in vivo data. Although there remains controversy about which enzyme is responsible in vivo for degrading membrane phospholipids to inflammatory mediators like arachid ....Human secretory phospholipases A2 have been associated with inflammatory diseases for many years, yet very few truly potent inhibitors of the human enzymes sPLA2 (isoforms IIa, V or X) are known due to a range of problems relating to the lipid nature of substrates, unavailability of enzymes, enzyme assays that do not correlate with in vivo data. Although there remains controversy about which enzyme is responsible in vivo for degrading membrane phospholipids to inflammatory mediators like arachidonate, PAF, prostaglandins, leukotrienes, etc. there is a consensus that blockade of phospholipid metabolism would represent a major advance on NSAIDs as antiinflammatory agents. No sPLA2-IIa inhibitor is available yet in man. We aim to create an attractive data package showing proof of concept for a potent new type of antiinflammatory drug. This data will give us an improved negotiating position in our commercialisation of a new drug with potential multi-billion dollar markets as diverse as arthritis, asthma, reperfusion injury, organ transplantation and many other currently intractable human ailmentsRead moreRead less
Novel Methods For Promoting Organ Development And Growth
Funder
National Health and Medical Research Council
Funding Amount
$390,203.00
Summary
A revolutionary new therapy for treatment of growth restricted fetuses and premature babies is being developed through the administration of Colony Stimulating Factor (CSF-1). We have evidence that CSF-1 therapy can promote kidneys and lungs to continue development and maturation after birth. This exciting new finding allows for the application of CSF-1 therapy for both the treatment of premature babies and unborn babies with kidney defects.
Development Of Resonance Energy Transfer Technologies To Detect GPCR Heterodimer Complexes In Living Cells
Funder
National Health and Medical Research Council
Funding Amount
$205,555.00
Summary
G-protein coupled receptors are proteins at the surface of most cells in the body. They bind to drugs, transmitting signals into cells that change what cells are doing. Recent research indicates that different types of these proteins can interact with each other and when one of these protein combinations binds a drug, it acts differently to when the proteins act separately. The aim of our project is to find out which protein combinations exist and to find drugs that bind to them specifically.