Airway Smooth Muscle And Fixed Airway Obstruction: Strategies For Softening Muscle
Funder
National Health and Medical Research Council
Funding Amount
$555,643.00
Summary
In severe asthma the airways don't relax fully making breathing more difficult. The inability to relax is being addressed by exploring the behaviour of isolated muscle cells. These cells are able to compact collagen gels. The mechanisms used to compact the gel are different to those that cause rapid muscular contraction. We aim to identify the molecules responsible for the gel compaction as a first step to identifying new drugs to treat the fixed airway obstruction in severe asthma.
Glucocorticoid Resistance: Identifying New Anti-inflammatory Drug Targets
Funder
National Health and Medical Research Council
Funding Amount
$453,287.00
Summary
The control of chronic inflammatory diseases such as asthma involve use of drugs related to the steroid hormone cortisol. Up to 40% of patients with more severe disease respond poorly or not at all to these drugs. The remaining non-steroid treatments are only partially effective. Poor disease control is a great health and economic burden. We have identified a molecular mechanism for steroid resistance and propose new studies to identify novel drugs that act to reverse steroid resistance.
Developing Novel Neuroreceptor And Channel Therapies For Pain And Addiction
Funder
National Health and Medical Research Council
Funding Amount
$808,375.00
Summary
Chronic pain is a growing and poorly treated global health burden. There is a great need for novel pain therapeutics. We are discovering novel drug targets in pain pathways in the nervous system and new therapeutic molecules that selectively block information flow in pain nerves. Strong pain relieving drugs like morphine also lose their effectiveness after long periods of use. We are finding mechanisms responsible for this thereby providing a rational basis for development of better opioids and ....Chronic pain is a growing and poorly treated global health burden. There is a great need for novel pain therapeutics. We are discovering novel drug targets in pain pathways in the nervous system and new therapeutic molecules that selectively block information flow in pain nerves. Strong pain relieving drugs like morphine also lose their effectiveness after long periods of use. We are finding mechanisms responsible for this thereby providing a rational basis for development of better opioids and pain treatments.Read moreRead less
The Search For Novel Therapeutic Targets For The Treatment Of Chronic Pain.
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
Chronic pain is very common, with one in five Australians suffering long-term pain that is serious enough to cause disability. It is extraordinarily difficult to treat. Medicines used to treat normal pain symptoms are usually ineffective on chronic pain patients because the cause of the pain is different. The aim of this project is to identify new drug targets in the spinal cord that are specific for chronic pain so we can develop new medicines to reverse the symptoms safely and effectively.
Endocannabinoid-TRP Interactions In Midbrain Analgesic Pathways
Funder
National Health and Medical Research Council
Funding Amount
$586,903.00
Summary
Current pharmacotherapies for chronic pain are often ineffective. The active ingredient of the plant Cannabis sativa, THC, and a number of synthetic cannabinoids have efficacy in these pain states, however, they also produce a spectrum of adverse side-effects. This project will use cellular and behavioural techniques to examine how this cannabinoid system modulates intrinsic pain systems within the midbrain in order provide leads for novel analgesic pharmacotherapies with enhanced efficacy.
Targeting TRPV4 Activation Mechanisms To Reveal Novel Pain Therapies
Funder
National Health and Medical Research Council
Funding Amount
$580,938.00
Summary
Pain nerves sense painful chemical and physical stimuli, by opening protein "ion channels" which let small electric currents traverse the cell membrane. This pain signal is transmitted to the spinal cord and then the brain, where it is perceived as pain and elicits a reaction. But we don't know how the ion channels open. This project will investigate how receptors for painful substances open ion channels to cause pain. Understanding this mechanism will help us to make new drugs to treat pain.
Mechanisms Of Serotonergic And Triptan Mediated Analgesia Within The Midbrain
Funder
National Health and Medical Research Council
Funding Amount
$546,937.00
Summary
Chronic pain requires multiple pharmacological interventions and these are often ineffective. These drugs include those which act on a diverse group of cell-surface proteins, called serotonin receptors. This project will use cellular and whole animal techniques to examine how these agents act within intrinsic pain and anxiety control systems within the brain in order to identify novel analgesic pharmacotherapies with enhanced efficacy and reduced side effects.