Development Of A Novel Orally Active Peptide For The Treatment Of Pain
Funder
National Health and Medical Research Council
Funding Amount
$402,145.00
Summary
Chronic pain from damage to the nervous system is difficult to treat. A new type of drug has recently been developed from sea snail venom to treat chronic pain but is given by injection, which limits its use. Our research has developed a stable molecule that has analgesic activity when ingested. This proposal focuses on further testing to fully establish this molecule's therapeutic potential. This information can then attract a commercial partner to bring the new drug into general use.
Evaluation Of Factor Va From The Venom Of The Australian Brown Snake As A Topical And Systemic Anti-bleeding Agent
Funder
National Health and Medical Research Council
Funding Amount
$113,742.00
Summary
Anti-bleeding agents are important pharmaceuticals for use in truama, surgery and several medical conditions to reduce blood loss and the need for blood transfusion. Some Australian snakes contain in their venom a powerful blood clotting agent. This agent mimics the human clotting machinery. In this project, we plan to test purified components of snake venom for an ability to clot human blood. We will undertake laboratory test-tube experiments as well as using an animal model after ethical appro ....Anti-bleeding agents are important pharmaceuticals for use in truama, surgery and several medical conditions to reduce blood loss and the need for blood transfusion. Some Australian snakes contain in their venom a powerful blood clotting agent. This agent mimics the human clotting machinery. In this project, we plan to test purified components of snake venom for an ability to clot human blood. We will undertake laboratory test-tube experiments as well as using an animal model after ethical approval. This project seeks to capture some of the genetic blueprint of an Australian snake, for human benefit by developing a new therapeutic agent based on a venom component. If the experiments are successful, the next stage will be further testing of efficacy and toxicity before seeking approval for clinical trials. The research is supported by the Australian pharmaceutical company QRx Pharma Pty Ltd who will work with Uniquest Pty Ltd to protect intellectual property generated in the project.Read moreRead less
The proposed project is part of a research programme aimed at developing a new drug to reduce the side effects of cancer radiotherapy. These side effects result from the radiation damage to normal tissues close to the tumour. Since in many instances the normal tissues at risk are accessible to topical application (eg. skin in breast cancer patients, rectal mucosa in prostate cancer patients, oral mucosa in all patients being treated for tumours in the head and neck region) the concept is very si ....The proposed project is part of a research programme aimed at developing a new drug to reduce the side effects of cancer radiotherapy. These side effects result from the radiation damage to normal tissues close to the tumour. Since in many instances the normal tissues at risk are accessible to topical application (eg. skin in breast cancer patients, rectal mucosa in prostate cancer patients, oral mucosa in all patients being treated for tumours in the head and neck region) the concept is very simple. A drug which makes cells less sensitive to X-rays (these drugs are called radioprotectors) is simply applied topically to the normal tissues at risk. For this purpose, we have developed a new radioprotecting drug called methylproamine which is 100-fold more potent than previously-developed radioprotectors. Unfortunately, methylproamine is not suitable for our purpose because at higher concentrations it is toxic to some cells. This hurdle must be overcome in order to make the project attractive to potential commercial sponsors. Our aim is to modify methylproamine by removing the molecular features that cause the cytotoxicity. We have established that this is feasible, by synthesising and evaluating a small family of methylproamine analogues. Some less toxic family members have already been identified. With this knowledge, we now propose to use special computer programmes to design a much larger family of methylproamine analogues, and to synthesise and test each one in order to identify the most promising candidate for our purpose. Once the efficacy window hurdle is passed, the subsequent milestones to commercialisation and clinical implementation can be addressed, with appropriate sponsorship. An Australian company has already expressed strong interest and is evaluating the opportunity.Read moreRead less