Conologues: Ultra-fast-acting Therapeutic Insulins Based On Cone Snail Venom Insulin Principles
Funder
National Health and Medical Research Council
Funding Amount
$1,082,866.00
Summary
The increasing prevalence of Type 1 and Type 2 diabetes demands better treatments. Our Project is based on a fascinating discovery by our international team of CIs of a new type of insulin within marine organisms that could form the basis of a novel diabetes therapeutic. Within our Project we will exploit this discovery to develop a new class of ultra-rapid-acting therapeutic insulins.
Snake envenoming is a neglected tropical disease and results in numerous deaths, psychological problems and economic burden. Antivenoms aren't readily available in resource poor countries. The CRE will investigate the effects of venom and antivenom to improve understanding of human envenoming. It will also develop tests for early diagnosis of envenoming and undertake clinical trials of antivenom. These studies will be translated back into clinical practice to improve treatment of snake bites.
Snakebite is a worldwide health problem, causing some 100,000 deaths per year. We have preliminary evidence that application of nitric oxide-releasing chemical to the skin presents a novel approach to first aid treatment of venomous bites. The method has the advantage of being simple and reliable and could save lives applied by itself or as an adjunct to pressure bandaging with immobilisation (PBI).
Molecular Toxinology Of Australian Box Jellyfish Venoms
Funder
National Health and Medical Research Council
Funding Amount
$283,110.00
Summary
Box jellyfish are an ongoing cause of illness and death for coastal communities and tourist regions in northern Australia. As well as creating a significant medical problem, the resulting closure of beaches during boxjellyfish 'season' results in an enormous loss of tourism income and threatens Australia's reputation as a safe destination. The jellyfish venoms contain toxins with potentially lethal effects on humans. For the first time, using pure venoms derived from the specialised stinging cel ....Box jellyfish are an ongoing cause of illness and death for coastal communities and tourist regions in northern Australia. As well as creating a significant medical problem, the resulting closure of beaches during boxjellyfish 'season' results in an enormous loss of tourism income and threatens Australia's reputation as a safe destination. The jellyfish venoms contain toxins with potentially lethal effects on humans. For the first time, using pure venoms derived from the specialised stinging cells (i.e. nematocytsts), we will isolate and characterize the major toxins from four species of box jellyfish. Their mechanism of action will be determined and the effect of various treatments such as antivenom will be investigated. This will also lead to the discovery of toxins with potentially novel targets and modes of action and increase our understanding of proposed treatments and prevention of stings.Read moreRead less
Discovering New Pathways To Improved Biotherapeutic Treatment Of Snakebite Envenoming.
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Snakebite is a public health emergency affecting up to 5.4 million people a year, causing up to 125,000 deaths. This multidisciplinary project will develop a new generation of medicines for treating snakebites, using innovative design approaches supported by cutting edge science and novel production ideas. Directly focused on improving antivenom effectiveness in the treatment of snakebites in Australia, Africa and Papua New Guinea, the results will make Australia a world leader in this field.
Identification And Characterization Of Novel Bioactive Peptides From Australian Conesnails Targeting Pain Pathways
Funder
National Health and Medical Research Council
Funding Amount
$320,803.00
Summary
In recent years, significant advances have been made in the identification of new targets in the central or peripheral nervous systems which may be used to develop new pain killers. However, molecules specifically targeting these receptors and channels are lacking to date. This project will use novel cell-based approaches to find new molecules from conesnails which specifically target receptors involved in pain. These will be useful to increase our understanding of the mechanisms of pain.
The Bioactivity And Binding Partners Of Irukandji And Box Jellyfish Venom
Funder
National Health and Medical Research Council
Funding Amount
$596,950.00
Summary
Venom from the Box Jellyfish and Irukandji jellyfish are considered the most leathal known to science yet precious little is known on the nature of these secretions or how they harm humans. This study aims to fully characterise bioactive proteins in jellyfish venom and attempt to block their activity using regulatory-approved and experimental drugs.
A Randomised Controlled Trial Of Factor Replacement Therapy In Snake Bite Coagulopathy
Funder
National Health and Medical Research Council
Funding Amount
$715,730.00
Summary
This proposal seeks funding to undertake a controlled trial of clotting factor replacement in snake bite coagulopathy after the administration of a neutralising dose of antivenom. The aim is to determine if factor replacement will result in a rapid return of clotting function in patients and therefore reduce the potential risk of major bleeding. This study will have international implications because globally snakebite coagulopathy is a major cause of morbidity and death like in Australia.
Anaphylaxis To Australian Native Ant Venoms; Major Allergens, Cross-reactivity, Diagnosis And Risk Assessment.
Funder
National Health and Medical Research Council
Funding Amount
$345,813.00
Summary
Insect venom allergy is a major cause of life-threatening allergy (anaphylaxis) in this country, and native ants are the most frequent cause in some regions. For introduced insects (bees and wasps), venom extracts are widely available for diagnostic and therapeutic use, but this is not yet the case for native ants. As many as 50,000 Australians may be affected by allergy to stings from ants in the native genus Myrmecia. This project will provide an in-depth understanding of the ant species respo ....Insect venom allergy is a major cause of life-threatening allergy (anaphylaxis) in this country, and native ants are the most frequent cause in some regions. For introduced insects (bees and wasps), venom extracts are widely available for diagnostic and therapeutic use, but this is not yet the case for native ants. As many as 50,000 Australians may be affected by allergy to stings from ants in the native genus Myrmecia. This project will provide an in-depth understanding of the ant species responsible for anaphylaxis in Australia. We will develop a range of diagnostic test modules, a detailed national map of causative species, and a panel of reference venoms and allergic sera, so that accurate diagnostic tests can be assured, and so that high quality venom extracts can be provided for human use (immunotherapy). We will also study allergic volunteers for up to five years, so as to determine which people are at the highest risk of repeated stings and reactions and thus most likely to benefit from desensitisation. Current evidence suggests that the commonest cause of native insect venom allergy may be the jack jumper ant Myrmecia pilosula, for which a desensitising venom extract has been developed and shown to be highly effective in preventing life threatening reactions. The research described in this application will enable doctors to ensure an accurate diagnosis, which is an essential step before desensitising treatment can be offered for jack jumper allergy. Another large group of people are probably allergic to larger Myrmecia known as bull dog ants or inch ants. Our results with regard to cross-reactivity patterns and venom similarities will enable us to determine an optimum therapeutic mixture of bull dog ant venoms and thus enable us to provide treatment for people allergic to these ants as well.Read moreRead less