Novel Fluorescent Probes Of Cellular Microenvironments To Study The Mechanism Of Action Of Endoperoxide Antimalarials
Funder
National Health and Medical Research Council
Funding Amount
$983,305.00
Summary
Malaria is responsible for the deaths of about two million children each year. As current drugs become increasingly useless due to the development of parasite resistance, there is an urgent need for new antimalarials. Artemisinin, an ancient Chinese drug that is extracted from wormwood, is now a front-line antimalarial, however its mechanism of action is not clear. Information about how artemisinin works is needed to help design cheap synthetic drugs that work in the same way.
The Quinoline Antimalarials: Mechanisms Of Action And Resistance In Plasmodium Falciparum
Funder
National Health and Medical Research Council
Funding Amount
$316,650.00
Summary
Malaria is a debilitating parasitic disease that is responsible for the deaths of about two million children each year. As drugs, such as chloroquine, become increasingly useless due to the development of parasite resistance, there is an urgent need to understand the mode of action of these antimalarials so that replacement drugs can be designed. We propose to test the hypothesis that chloroquine acts by interfering with the detoxification of the by-products that are produced when the parasite f ....Malaria is a debilitating parasitic disease that is responsible for the deaths of about two million children each year. As drugs, such as chloroquine, become increasingly useless due to the development of parasite resistance, there is an urgent need to understand the mode of action of these antimalarials so that replacement drugs can be designed. We propose to test the hypothesis that chloroquine acts by interfering with the detoxification of the by-products that are produced when the parasite feeds on haemoglobin. We propose that the parasite develops resistance to chloroquine by excluding either the drug or the toxic by-products from the site of action. We further propose that proteins of the digestive vacuole of the parasite are involved in the development of resistance to chloroquine. We plan to identify and characterise these proteins and to use this information to design novel antimalarial drugs.Read moreRead less
Pharmacological Targeting Via AKT, PTEN, And TGF-beta Pathway Integration Using Novel Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$634,875.00
Summary
We have identified potentially important interactions of cellular pathways that vary between individual sufferers, but which also provide common molecular targets for novel drug development. Our suite of novel and potent drugs that markedly and selectively inhibit cancer cell growth will be studied to determine if these pharmaceutical agents act to inhibit tumour cell proliferation by targeting common effector molecules of integrated cellular pathways.
Molecular Targeting To Telomerase And Cancer Cell Immortality By A Novel Inhibitor
Funder
National Health and Medical Research Council
Funding Amount
$430,812.00
Summary
Infinite growth of cancer cells is a hallmark of cancer. Telomerase is required for cancer cell immortality. Inhibition of telomerase may thus offer an opportunity to stop cancer cells. We have identified an inhibitor of telomerase. This project will study the mechanisms of action of the novel inhibitor, investigating how to control cancer cell immortality as a baseline for more applied anti-cancer therapeutic studies.
Effect Zoledronic Acid And Risedronate On The Preservation Of The Femoral Head In A Rat Model Of Perthes Disease
Funder
National Health and Medical Research Council
Funding Amount
$199,750.00
Summary
Perthes Disease (Legg-Perthes Disease) is a common childhood disorder, which leads to collapse and deformity of the growing hip joint. This can lead to arthritis in adult life, as well as a short leg on the affected side. The cause is as yet unknown. A class of drugs called bisphosphonates has been shown to help children with osteogenesis imperfecta (brittle bone disease). We believe, based on our extensive studies of the effect of these drugs on bone healing, that they could also help children ....Perthes Disease (Legg-Perthes Disease) is a common childhood disorder, which leads to collapse and deformity of the growing hip joint. This can lead to arthritis in adult life, as well as a short leg on the affected side. The cause is as yet unknown. A class of drugs called bisphosphonates has been shown to help children with osteogenesis imperfecta (brittle bone disease). We believe, based on our extensive studies of the effect of these drugs on bone healing, that they could also help children with Perthes disease. Although proving to be safe and effective in children with osteogenesis imperfecta, before exposing children with Perthes disease to the risk of any side effects, animal studies are needed. A certain type of rat called the spontaneously hypertensive rat gets a condition almost exactly the same as Perthes disease. This study will treat a large number of these rats and perform detailed study into whether it has a positive effect on preserving the shape of the hip joint, as well as looking into how this actually occurs. A successful outcome would pave the way for trials in children with Perthes disease, and could result in the avoidance of surgery and improved health outcomes for the children.Read moreRead less