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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
There is an unmet need for safe and effective anti-inflammatory drugs. Because P38 MAPK intracellular signalling modulates multiple pro-inflammatory cytokine actions, it appears to be an ideal candidate pathway. P38 inhibitors have been limited by their toxicity within hepatocytes. The aim of this program therefore is to develop agents with enhanced P38 MAPK inhibitory effects as well as reduced liver toxicity based on known structure activity relationships.
Development And Biological Evaluation Of Cytokine Macrophage-migration Inhibitor (MIF) Non-Steroidal Antagonists
Funder
National Health and Medical Research Council
Funding Amount
$85,000.00
Summary
The cytokine macrophage-migration inhibitory factor (MIF) has a broad range of pro-inflammatory effects in the innate and adaptive immune system. CIA’s lab has demonstrated the potential importance of MIF in the pathology of chronic inflammation via studies in models of rheumatoid arthritis (RA). Similarly to other chronic inflammatory diseases, MIF is overexpressed in human RA, and induces activation of key pathological processes in RA cells. Moreover, antagonism of MIF with mAb profoundly inhi ....The cytokine macrophage-migration inhibitory factor (MIF) has a broad range of pro-inflammatory effects in the innate and adaptive immune system. CIA’s lab has demonstrated the potential importance of MIF in the pathology of chronic inflammation via studies in models of rheumatoid arthritis (RA). Similarly to other chronic inflammatory diseases, MIF is overexpressed in human RA, and induces activation of key pathological processes in RA cells. Moreover, antagonism of MIF with mAb profoundly inhibits models of RA and other inflammatory diseases, confirming MIF as a therapeutic target in human inflammatory disease. The X-ray crystal structure of MIF has been published and the putative active site fully characterised. We have deduced structural features of MIF that reveal aspects of the structural complementarity of host-guest affinity. This information has been used in the synthesis of new compounds to antagonise MIF. We have designed, synthesised and tested several classes of compounds, which have shown activity from milli to nano-molar levels in novel in-house in vitro bioassays.Read moreRead less
Development Of A Highly Potent, Fully Human Anti-GM-CSF Monoclonal Antibody
Funder
National Health and Medical Research Council
Funding Amount
$334,000.00
Summary
Many diseases, such as arthritis, have unwanted inflammatory reactions. Better drugs are needed to control inflammation. A powerful antibody to a significant pro-inflammatory cytokine will be generated; this antibody will be especially designed so that it will not be rejected by patients. Because of its properties it will cost the community less than similar therapeutics. Because inflammatory diseases are common many patients will benefit from our therapeutic.
Development Of An Anti-GM-CSF Antibody For Treatment Of Rheumatoid Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$283,000.00
Summary
The aim of this project is to develop assays for the evaluation of the efficacy and safety of an anti-GMCSF neutralizing antibody in a Australian first-in-man clinical trial in patients with severe rheumatoid arthritis (RA). This chimeric antibody has been developed by the Ludwig Institute for Cancer Research, Melbourne Branch, in conjunction with KaloBios Pharmaceuticals, Inc., USA. It is intended to use the assays developed in this project to facilitate commercial development of this antibody, ....The aim of this project is to develop assays for the evaluation of the efficacy and safety of an anti-GMCSF neutralizing antibody in a Australian first-in-man clinical trial in patients with severe rheumatoid arthritis (RA). This chimeric antibody has been developed by the Ludwig Institute for Cancer Research, Melbourne Branch, in conjunction with KaloBios Pharmaceuticals, Inc., USA. It is intended to use the assays developed in this project to facilitate commercial development of this antibody, and result in the development of an improved treatment for this devastating disease.Read moreRead less
Development And Evaluation Of Novel Anti-inflammatory Products Derived From An Indigenous Medicinal Plant
Funder
National Health and Medical Research Council
Funding Amount
$276,598.00
Summary
This collaborative project between researchers at the University of South Australia and Indigenous traditional owners from Northern Kaanju homelands (Cape York Peninsula, Qld) will develop and evaluate products derived from the Northern Kaanju medicinal plant Dodonaea polyandra. Extracts of the plant and novel compounds isolated from it have anti-inflammatory activity. These have the potential to be used in inflammatory diseases such as dermatitis, arthritis and inflammatory bowel disease.
In Vitro And In Vivo Assessment Of The Funhaler -an Innovative Therapeutic Device For Children
Funder
National Health and Medical Research Council
Funding Amount
$472,750.00
Summary
Aerosol therapy is the most effective form of treatment for children with respiratory diseases such as asthma. While optimising aerosol delivery systems has an important role in increasing the efficacy of asthma therapy, ensuring patient compliance is often the most difficult part of the clinician's role, particularly in the paediatric age group. An innovative small volume spacer device (Funhaler) developed by a West Australian company (InfaMed, Ltd) may help overcome this problem. The Funhaler ....Aerosol therapy is the most effective form of treatment for children with respiratory diseases such as asthma. While optimising aerosol delivery systems has an important role in increasing the efficacy of asthma therapy, ensuring patient compliance is often the most difficult part of the clinician's role, particularly in the paediatric age group. An innovative small volume spacer device (Funhaler) developed by a West Australian company (InfaMed, Ltd) may help overcome this problem. The Funhaler incorporates a spinning toy attached to the outside of the spacer. The toy is activated when the patient breathes through the spacer. The device has been designed to encourage children to co-operate when their asthma therapy is being delivered. The Funhaler is currently in the late development stage. We propose, firstly, to carry out in vitro assessments of drug delivery from the Funhaler compared to the two most widely available small volume spacers: the Aerochamber Plus (Trudell, Canada) and the Breath-A-Tech (Scott-Dibben, Australia). These assessments will be carried out to meet the standards of regulatory bodies worldwide (including the FDA). Secondly, we propose to perform extensive in vivo studie: filter studies to assess drug delivery to the patient; deposition studies to measure drug deposition in the lungs; and a pilot clinical trial to assess the efficacy of the device during medium to long-term use in children aged 2-8 years.Read moreRead less
Development Of A Simple Chemical Test For Detecting DNA-interacting Compounds For Medical And
Funder
National Health and Medical Research Council
Funding Amount
$315,450.00
Summary
The project exploits a simple chemical reaction to detect and measure the interaction of compounds with DNA. The test will be useful in the early screening of drug candidates for genotoxicity, identifying new anticancer drugs and also find application in the environmental, cosmetic and food industries. Work will focus on establishing peak conditions for the test, determining the scope of application, testing a panel of control compounds and performing a blind study to provide proof of concept.
The Respire_ System: Portable Pulmonary Delivery Platform For Rapid, Flexible And Highly Efficient Treatment Of Elderly, Paediatric And Physically-Compromised Patients With Chronic Respiratory Diseases
Funder
National Health and Medical Research Council
Funding Amount
$599,142.00
Summary
The development of a low-cost miniature drug delivery platform for the treatment of chronic respiratory diseases is proposed. The portable device has already been shown to be significantly more efficient than currently available asthma inhalers. In addition, the device offers the possibility of dose adjustment to account for patient variability, such as age and disease severity, as well as a reduction in patient intervention, thus making it more appropriate for patients unable to self-medicate.
Development Of Anti-metastatic And Tumour Targeting Reagents By Design Of Inhibitors To Specific Eph/ephrin Cell-cell
Funder
National Health and Medical Research Council
Funding Amount
$200,000.00
Summary
Metastatic disease, malignant melanoma in particular, is a health issue of considerable global importance with 1,000 fatal melanoma cases- year in Australia alone. While progress has been made on prevention and early diagnosis, no curative treatment exists for stage IV melanoma. Tumour progression and the acquisition of metastatic competence primarily reflect dysregulation of cell adhesion and cell motility rather than proliferation and survival. In this context, Eph receptor tyrosine kinases (E ....Metastatic disease, malignant melanoma in particular, is a health issue of considerable global importance with 1,000 fatal melanoma cases- year in Australia alone. While progress has been made on prevention and early diagnosis, no curative treatment exists for stage IV melanoma. Tumour progression and the acquisition of metastatic competence primarily reflect dysregulation of cell adhesion and cell motility rather than proliferation and survival. In this context, Eph receptor tyrosine kinases (Ephs) and their membrane-bound ephrin ligands are crucial mediators of cell adhesion and motility and are notably overexpressed in metastatic tumours rather than primary (benign) lesions5. Our laboratories were the first to identify EphA3 7, and one of the first to isolate its ligand, ephrin-A5. EphA3 was isolated from acute lymphoblastoid leukemia and malignant melanoma patients, where increasing expression levels correlate with metastatic progression. Soluble, non-clustered forms of Ephs and ephrins are effective inhibitors of Eph activity 3 and provide opportunities to generate specific drugs for cancer therapy. We now propose a research and development program for the development of EphA3-specific drugs and their production for pre-clinical and clinical evaluation for placement onto a national and international market.Read moreRead less