Development Of A Novel MicroRNA Mimic For Cancer Treatment
Funder
National Health and Medical Research Council
Funding Amount
$534,179.00
Summary
Liver cancer is a major health burden globally, with a very poor prognosis. New treatments are urgently needed. We have developed proof-of-concept data showing that a tiny RNA, called a microRNA, is a powerful inhibitor of liver cancer growth. We will use this grant application to further develop the microRNA with novel chemistry so that it can be readily translated into early phase clinical trials in the near future.
Development Of A Humanised Antibody To MIC-1/GDF15 For Therapy Of Anorexia/cachexia Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$587,349.00
Summary
Severe starvation and weight loss (cachexia) is a complication that affects about one quarter of cancer patients. In many this is due to the cancer producing a powerfula appetite suppressive protein called MIC-1/GDF15. This weight loss can be prevented by blocking the protein with an antibody drug. We have already shown that we can treat mice in this way by using a mouse antibody. We now aim to engineer these antibodies by making them more human-like. This will allow us to treat weight loss in h ....Severe starvation and weight loss (cachexia) is a complication that affects about one quarter of cancer patients. In many this is due to the cancer producing a powerfula appetite suppressive protein called MIC-1/GDF15. This weight loss can be prevented by blocking the protein with an antibody drug. We have already shown that we can treat mice in this way by using a mouse antibody. We now aim to engineer these antibodies by making them more human-like. This will allow us to treat weight loss in human cancer patients.Read moreRead less
Novel Therapy For Enhancing Organ Maturation In Pre-term Babies
Funder
National Health and Medical Research Council
Funding Amount
$694,323.00
Summary
This project is developing a factor to enhance organ maturation and repair that may provide a new therapy for premature babies and fetuses with birth defects. This exciting new finding allows for the development of treatments of underdeveloped organs, in particular the lungs of premature and growth restricted babies. We are also trialing this factor in unborn babies with defects to the kidneys and lungs of which there is currently no cure.
Pancreatic Targeting Of IL-22 Therapy For Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$484,644.00
Summary
Type 2 diabetes is one of the largest problems facing health care and presents an enormous therapeutic market. Our approach with IL-22 fights the disease at the core of the problem in the pancreatic ?-cells that make insulin. Our patent focuses on targeting IL-22 to the ?-cells which promises to maximise therapeutic benefits while minimising potential adverse effects in other tissues. Independently, and in collaboration with Novo Nordisk, we are making prototype drugs to achieve this.