A New Class Of Inhibitors For The Treatment Of Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$720,691.00
Summary
Tuberculosis (TB) remains a major cause of mortality and morbidity worldwide, with 1.3 million deaths annually. Some strains of the TB bacterium are resistant to all available drugs. We have identified novel chemical structures that display potent and specific activity against pathogenic mycobacteria. In this proposal we will develop optimised derivatives with more potent activity against mycobacteria, assess their stability and toxicity and determine their mode of action.
Prevention And Treatment Of Bone Infection With CSA-90
Funder
National Health and Medical Research Council
Funding Amount
$350,983.00
Summary
Bone infections are a major challenge to treat, especially with the rise of drug resistant “superbugs”. We have access to a new agent, CSA-90, that has dual properties of being anti-microbial (antibiotic) and helps encourage bone growth. This project aims to expand upon our prior research and test CSA-90 for the treatment of chronic bone infections. We will also look at applying this technology to joint replacements and this drug may be particularly useful for coating orthopaedic implants.
Dietary Therapies For The Treatment Of Drug-resistant Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$69,757.00
Summary
Epilepsy affects about 225,000 Australians, with 30% of suffers still experiencing seizures despite being on medications. A reduction in seizures can significantly improve the health of people with epilepsy who do not respond to medications. Low carbohydrate, high fat diets are a well-established treatment option in children, but this has not previously been studied in Australian adults. The aim of this research is to evaluate if dietary therapies are an effective treatment in adult epilepsy.
Development And Epilepsy - Strategies For Innovative Research To Improve Diagnosis, Prevention And Treatment In Children With Difficult To Treat Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$456,083.00
Summary
By deciphering pathophysiological mechanisms in epileptogenic developmental disorders and developing mechanism-related, and advanced therapeutic strategies, we expect to discover novel genes and related molecular pathways that are involved in epilepsy and similar disorders. DESIRE will also help preventing the development of the disease after potentially epileptogenic brain insults.
The Role Of Intracellular Uptake And Retention Of Abl Kinase Inhibitors In Modifying Clinical Response In CML
Funder
National Health and Medical Research Council
Funding Amount
$465,210.00
Summary
Imatinib is one of the first targeted anticancer drugs to be clinically developed. It is designed to inhibit the kinase activity of BCR-ABL, a mutant protein found in some cases of leukaemia, particularly chronic myeloid leukaemia. Blocking the kinase activity of BCR-ABL has proven to be highly effective therapy for most patients, achieving prolonged remissions and significantly improving survival. However resistance to imatinib is a problem, including failure to respond to imatinib, loss of res ....Imatinib is one of the first targeted anticancer drugs to be clinically developed. It is designed to inhibit the kinase activity of BCR-ABL, a mutant protein found in some cases of leukaemia, particularly chronic myeloid leukaemia. Blocking the kinase activity of BCR-ABL has proven to be highly effective therapy for most patients, achieving prolonged remissions and significantly improving survival. However resistance to imatinib is a problem, including failure to respond to imatinib, loss of response, and long term persistence of low levels of leukaemia. New ABL kinase inhibitors (AKIs) have been developed that are more potent than imatinib, but they also appear to be prone to resistance. One potentially important cause of resistance to AKIs is the ability of some leukaemic cells to modify their cellular pathways to reduce the effective concentration of the drug by either reducing its movement into the cell (influx) or increasing its movement out (efflux). We will investigate the mechanisms used by resistant leukaemic cells to reduce intracellular drug levels of these AKIs and test ways of countering these effects by blocking the proteins responsible for drug efflux or promoting drug influx. These studies will use our stored collections of leukaemic cells from responsive and resistant patients to determine the importance of specific influx and efflux pumps. It will help to identify patients where this form of resistance is limiting response. This may allow us to develop more effective AKIs that are less prone to these forms of drug resistance. We will also test whether other anti-cancer drugs have an impact on AKI drug transport because this could reduce the effectiveness of combination treatment. The effects on drug transport of concomitant administration of commonly used drugs together with AKIs will also be studied because this can reduce the effectiveness of AKis or in some cases improve their effectiveness by increasing their uptake and retention.Read moreRead less
The Biology And Clinical Manifestations Of Chronic Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$440,583.00
Summary
I am a haematologist studying the biology and clinical manifestations of chronic myeloid leukaemia with particular reference to the dynamics of response to kinase inhibitor therapy and the causes and clinical management of suboptimal response and drug res
Investigation Of A Tumour Enzyme As A Predictor Of Patient Response To An Australian Anti-cancer Drug
Funder
National Health and Medical Research Council
Funding Amount
$362,082.00
Summary
GSAO is a new cancer drug we have developed that is currently being trialed in cancer patients. Our investigation of how GSAO works has revealed that it needs to be activated by an enzyme expressed by certain types of cancers. This finding implies that GSAO should be more effective against cancers that make this enzyme. Our aim is to establish this concept in laboratory based experiments as a basis for selection of patients who are more likely to benefit from GSAO treatment.