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Inhibitors Of Bacterial Protein Synthesis - A New Class Of Antibiotics
Funder
National Health and Medical Research Council
Funding Amount
$120,000.00
Summary
Pioneering work by CSIRO scientists has identified specific peptide motifs in the DNA replication machinery of bacteria that are critical for the correct functioning of the organism. In collaboration with CI Alewood potent (Kd ~ nM) lead compounds that inhibit bacterial DNA replication have been designed and synthesised. Through the application of a number of novel bioinformatics approaches to the analysis of the complete genome sequences of bacteria, the key sites of interaction of a number of ....Pioneering work by CSIRO scientists has identified specific peptide motifs in the DNA replication machinery of bacteria that are critical for the correct functioning of the organism. In collaboration with CI Alewood potent (Kd ~ nM) lead compounds that inhibit bacterial DNA replication have been designed and synthesised. Through the application of a number of novel bioinformatics approaches to the analysis of the complete genome sequences of bacteria, the key sites of interaction of a number of protein families (DNA synthesis and repair enzymes) with the beta subunit of bacterial DNA Polymerase III have been identified. The nature of the sites, and preliminary experimental data, suggests that the approach will be generally applicable to all species of bacteria. In addition a wide range of novel assays for the identification of inhibitors of the interaction of proteins with the beta subunit have been developed. In this proposal we wish to demonstrate that our in vitro nanomolar inhibitors of the beta subunit can inhibit bacterial cell growth. The development program proposes to develop methods and strategies to gain bacterial cell entry of inhibitors of the interaction of proteins with the beta subunit of bacterial DNA Polymerase III. Proof of concept will be demonstrated by inhibition of bacterial cell growth. Stable compounds with good binding characteristics and able to be taken up by cells will be developed based on structure-function assay results, structural studies and modelling of inhibitors bound to the target. Antimicrobial activity of compounds will be demonstrated in standard FDA approved NCLLS (National Centre of Clinical Laboratory Standards USA) tests. Spectrum of activity will be demonstrated by testing compounds against bacterial species representative of the range of pathogenic organisms in standard FDA assays.Read moreRead less
Lipoceramic Technologies: A Solution To Low And Variable Bioavailability Of Poorly Soluble Anti-inflammatory Drugs
Funder
National Health and Medical Research Council
Funding Amount
$200,600.00
Summary
A novel oral drug delivery platform will be developed that improves the absorption of poorly soluble drugs from the GI tract, leads to improved clinical outcomes and has significant commercial value. This development will be based on the combination of formulation, in vitro analysis and in vivo animal model studies. An advanced prototype formulation will be established for celecoxib (a non-steroidal anti-inflamatory drug) that will be suitable for human phase 1 clinical trials.
Development Of A New High Throughput Screen For Drug Binding To HERG K+ Channels
Funder
National Health and Medical Research Council
Funding Amount
$351,320.00
Summary
Inadvertent drug block of hERG, a potassium channel in the heart, can cause cardiac arrhythmias and sudden cardiac death. Screening for hERG toxicity has become a major hurdle for development of new drugs. We will use a mutant hERG protein that has enhanced drug binding to develop a high throughput test for hERG toxicity. Identification of dangerous drugs early in the drug discovery process will save the pharmaceutical industry millions of dollars in the costs of brining new drugs to market.
Despite the acknowledged limitations of ophthalmic medication by means of topical guttae therapy, including toxicity, inefficiency and poor compliance, there has been no success in developing a true alternative suitable for a wide range of conditions. The availability of a simple, safe efficacious means of prolonged topical ophthalmic drug delivery would alter the practice of ophthalmology worldwide, with reduced morbidity, improved compliance and direct and indirect health savings. Poor patient ....Despite the acknowledged limitations of ophthalmic medication by means of topical guttae therapy, including toxicity, inefficiency and poor compliance, there has been no success in developing a true alternative suitable for a wide range of conditions. The availability of a simple, safe efficacious means of prolonged topical ophthalmic drug delivery would alter the practice of ophthalmology worldwide, with reduced morbidity, improved compliance and direct and indirect health savings. Poor patient compliance with topical guttae therapy is increasingly recognised as a source of significant morbidity. The occurrence of such a breakthrough in Australia would result in Australia benefiting from the boost to a medical biomaterial industry based here, with a large export market for a high value-m3 product. During the next phase of research for this project, over 1 year, we aim to do the following: Phase I: Manufacture a range of prototype devices, with variations in sponge and surface composition and evaluate these devices using a Sintech mechanical tester for elasticity and strength and by light and environmental scanning electron microscopy for structure and porosity. The liquid loading capacity will also be measured for each variant. Phase II: Using both hydrophilic and lipophilic models, drug loading and release kinetics will be assessed in vitro in a continuous flow system, with drug concentrations being measured by UV-Vis and HPLC. Drug stability within the devices will also be assessed. Phase III: Having determined the optimum sponge formulation and release kinetics in vitro, a pilot study will be undertaken to assess drug release in an animal model. Loaded devices will be placed within the inferior fornix the rabbits for specified periods from 0.5 to 96 hours, then removed so that drug levels remaining in the device can be assessed. After a 2 week flushing period, the experiments will be repeated but with animals being sacrificed at the end of the wearing period so that device levels in intraocular tissues and fluids, as well as remaining in the devices, can be determined at these times, with appropriate controls (‘blank’ devices and guttae therapy). This study will also fulfil the requirements for new device tolerance testing as specified by Regulatory authorities, as animals will be monitored for signs of irritation and histological studies will allow any evidence of inflammation to be identified. These studies do not allow evaluation of the device in a model diseased eye, nor attempt to establish drug loading levels required for human subjects, as there are differences in drug transport across the ocular surfaces of rabbits and humans, but will allow sufficient proof-of-principle for further development to occur.Read moreRead less
Novel Soluble Guanylate Cyclase Activators For Pulmonary Artery Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$474,087.00
Summary
Pulmonary hypertension (elevated blood pressure in the lungs) is a life-threatening condition with few treatment options. We have recently identified a new class of drug that may improve blood vessel function in the lungs and thereby provide a new drug for the management of this group of patients.
Novel System For Non-Invasive Delivery Of Drugs To The Interior Of The Eye
Funder
National Health and Medical Research Council
Funding Amount
$200,213.00
Summary
Age-related macular degeneration (AMD) is the leading cause of visual loss for adults in the developed world. Treatment is now by needle injection into the back of the eye, which is painful for the patient and is costly for the health-care system. Seagull Technology Pty Ltd has developed a non-invasive device for treating the back of the eye without the need for a needle injection. This project will test the new device in animals and then move to a first safety study for human AMD patients.
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.
Se015: A Developmental Drug For The Treatment Of Brain Tumours
Funder
National Health and Medical Research Council
Funding Amount
$304,206.00
Summary
Primary malignant brain tumors are amongst the most lethal forms of human cancers with median survival for these patients being only around 1 year. In spite of the advent of new targeted therapies for some cancers the prognosis for these patients remains dismal. Worldwide, more than 95% of all people who contract the disease will die of it. This is because there are no effective therapies and all current treatments are only palliative, seeking to lesson the distressing suffering associated with ....Primary malignant brain tumors are amongst the most lethal forms of human cancers with median survival for these patients being only around 1 year. In spite of the advent of new targeted therapies for some cancers the prognosis for these patients remains dismal. Worldwide, more than 95% of all people who contract the disease will die of it. This is because there are no effective therapies and all current treatments are only palliative, seeking to lesson the distressing suffering associated with disease progression. Nearly all therapies that have shown some efficacy in treating cancer, such as chemotherapy and radiation have a mode of action whereby they attempt to kill cancer cells by inflicting enough damage to the cancer cells that they induce them to commit cell suicide, a process called apoptosis. Unfortunately, cancer cells can become resistant to these therapies by activating the cells' own signaling pathways that normally block apoptosis. One of the key pathways that has been implicated in resistance to apoptosis in human cancers is the PI3K-Akt pathway. This pathway is overactivated in many advanced human tumors, particularly in glioblastoma. We have discovered a compound, Se015, which can effecitively block this pathway in brain cancer cells and is able to dramatically improve the effectiveness of both chemotherapy and radiation in killing these cells. We have confirmed the efectiveness of Se015 in preliminary animal models of brain cancer, where we have shown that Se015 demonstrated no noticeable toxicity and was active when taken orally. We now need to explore further the molecular mode of action of Se015, as well as complete our animal studies with the eventual aim of initiating a small trial of Se015 in glioblastoma patients in the forseeable future.Read moreRead less