Alternate Splicing Of Tryptase Genes Regulates Their Specificity
Funder
National Health and Medical Research Council
Funding Amount
$294,250.00
Summary
Tryptases are enzymes implicated in inflammatory disorders including arthritis, inflammatory bowel disease (IBD) and asthma. Specific tryptase inhibitors are effective in treating these diseases. We have discovered that each human tryptase gene is processed into two different protein products via a mechanism called alternate splicing. We will investigate the structure and function of these.
Distribution Kinetics Of Opioids Used In Substitution Programs
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
Heroin addiction is a major national and international problem costing hundreds of millons of dollars to Australia alone. The major form of treatment is methadone taken as maintenance treatment once a day. While methadone is effective in most addicts, about one third of them complain that it does not last long enough and they either tolerate this inadequate form of treatment or are prescribed a newer drug as part of a clinical trial or drop out and revert to heroin. We have previously shown that ....Heroin addiction is a major national and international problem costing hundreds of millons of dollars to Australia alone. The major form of treatment is methadone taken as maintenance treatment once a day. While methadone is effective in most addicts, about one third of them complain that it does not last long enough and they either tolerate this inadequate form of treatment or are prescribed a newer drug as part of a clinical trial or drop out and revert to heroin. We have previously shown that the blood levels of methadone are important in determining its best use and specifically, that those addicts for whom methadone does not hold have a greater drop in their blood levels after methadone has been absorbed into the body. This drop in blood levels is mainly due to methadone's redistribution throughout the body. Very little is known about how methadone distributes and redistributes throughout the body but it appears that the lung is the most important organ. A number of questions need to be answered to improve methadone's use: 1. How quickly is methadone taken up into the lung compared to the brain; 2. Why is the lung able to take up and release a large amount of methadone; 3. How does decreased respiration influence the lung and brain uptake of methadone; 4. What happens when another drug is prescribed (such as an antidepressant) which reduces the lung uptake of methadone; 5. Do some of the newer drugs for heroin addiction have better lung distribution and binding properties. We will perform studies of the concentrations of methadone and newer drugs in sheep that will provide the scientific basis for answering these questions and permit better use of drug treatment for heroin addiction.Read moreRead less
Genomic Characterisation Of Novel Inflammatory Regulators In A Mouse Model Of Disseminated Candidiasis
Funder
National Health and Medical Research Council
Funding Amount
$581,427.00
Summary
Genome biology offers great promise for the study of immune function, but new approaches are needed to build insights between data and disease. This project looks at the gene products used by mice susceptible to yeast infection and asks if the information is used differently in resistant animals. Blood-borne fungal infections are increasing in hospitals; we want to discover new immune gene products and understand how they contribute, so we can better predict the outcome of an infection.
Decoding Dysfunctional Spinal Cord Circuitry In Chronic Pain.
Funder
National Health and Medical Research Council
Funding Amount
$516,101.00
Summary
Chronic pain is common, with one in five Australians having long-term pain that is serious enough to cause disability. Unfortunately this type of pain is difficult to treat, and current medicines are ineffective in many people, with unwanted side-effects. The aim of this project is to understand how signalling in the spinal cord changes following the development of chronic pain so we can find better strategies to reverse the symptoms and treat pain more effectively.
Membrane Attachment And Components Of The Ca2+ -triggered Release Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$386,498.00
Summary
Understanding and harnessing the fundamental cellular process of secretion will provide a wealth of new approaches to addressing problems associated with aging & disorders that are major health care burdens (e.g. neurodegeneration & diabetes). Understanding the vesicle docked state, and the contributions of different molecular components to the release process provides for unique insights into the underlying molecular mechanisms, thereby enabling safe, targeted control of this critical process.