Chronic pain from damage to the nervous system is extremely debilitating and notoriously difficult to treat. The current drug of choice, gabapentin, has serious side effects and only works in two-thirds of patients. We have developed a drug, derived from sea snail venom, that exhibits ten times the activity of gabapentin. This proposal seeks to progress our drug to clinical trials and attract a commercial partner for its development into the market.
Developing Subtype-selective Blockers Of Acid-sensing Ion Channels For Treating Peripheral Pain
Funder
National Health and Medical Research Council
Funding Amount
$641,407.00
Summary
Chronic pain is a huge medical problem that affects 1 in 5 adults. There are few drugs available for treating chronic pain, and many of these have limited efficacy and dose-limiting side-effects. Acid-sensing ion channels are proteins that play an essential role in the specialised nerves that sense pain signals. The ultimate goal of this project is to engineer highly selective blockers of these channels that can be used to develop effective analgesics for treating patients with chronic pain.
Venoms To Drugs: Translating Venom Peptides Into Human Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
Many disorders of the nervous system, including chronic pain, epilepsy and the neuronal degeneration suffered following a stroke, result from malfunction of channels that ferry ions across neuronal cell membranes. There are very few drugs available for treating these disorders and they often have debilitating side-effects. We are developing potent and selective modulators of these ion channels as the next-generation of safe and effective analgesic, anti-epileptic, and neuroprotective drugs.
Structure-based And Fragment-based Approaches To Developing New Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$763,409.00
Summary
Two powerful and complementary approaches to developing new drugs will be combined to target proteins that play key roles in malaria and other parasite and bacterial infections with the aim of developing new therapeutics. In addition, the potential of peptide toxins to treat autoimmune diseases such as multiple sclerosis, as well as chronic pain and other conditions, will be exploited to develop new drugs.
Venoms To Drugs: Translating Venom Peptides Into Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$751,854.00
Summary
Chronic pain is a major global health problem that currently affects over three million Australians. There are few drugs available for treating chronic pain and many have significant side-effects. Several ion channels are critical for conducting pain signals to the brain. Blocking these channels can provide pain relief and, in some cases, protection from brain injury following stroke. We are producing potent and selective blockers of these ion channels for the treatment of chronic pain and strok ....Chronic pain is a major global health problem that currently affects over three million Australians. There are few drugs available for treating chronic pain and many have significant side-effects. Several ion channels are critical for conducting pain signals to the brain. Blocking these channels can provide pain relief and, in some cases, protection from brain injury following stroke. We are producing potent and selective blockers of these ion channels for the treatment of chronic pain and stroke.Read moreRead less