Epilepsy is a very common and serious brain disorder. Epilepsy often includes other disabilities, reduction in quality of life and is associated with increased risk of early death. 30% of people with epilepsy are unable to gain control of their seizures with currently available medications. The genetic causes of the large majority of epilepsy cases have not yet been found. This project aims to identify new genetic causes of epilepsy and its related disorders.
Treatment Of Genetic Liver Disease By Homologous Recombination In Vivo, Coupled With A Pharmoco-genetic Strategy For Selective Expansion Of Genetically Repaired Hepatocytes
Funder
National Health and Medical Research Council
Funding Amount
$920,836.00
Summary
This project seeks to exploit recent advancements in our ability to precisely “edit” and correct mutations underlying human genetic diseases. To improve therapeutic efficiencies of the system, we will deliver the technology using highly efficient virus-based systems and apply a novel post-repair selection process to preferentially repopulate the liver with gene-repaired cells. Demonstration of the strategy in a humanised mouse model will provide important preclinical data for human applications.
Understanding The Genetic Basis Of Breast Cancer: Translation To Primary And Secondary Prevention
Funder
National Health and Medical Research Council
Funding Amount
$2,731,372.00
Summary
We have identified >200 regions of the genome that contain variants that increase breast cancer risk. I will now focus on the main challenges i.e. to a) find the remaining genetic risk factors that will collectively explain all of the genetic risk, b) understand how these work, in particular which genes they influence and c) apply this knowledge to find and develop new drugs. Importantly, such drugs could be used not only to treat breast cancer, but also to prevent it in high-risk women.