INHIBITORS OF DENGUE VIRUS NONSTRUCTURAL PROTEIN 5 NUCLEAR TRAFFICKING AS PROBES OF DENGUE BIOLOGY
Funder
National Health and Medical Research Council
Funding Amount
$741,136.00
Summary
Viral disease is one of the most significant health problems world-wide, making the identification of new therapeutics of critical importance. We aim to characterise in detail novel compounds which inhibit the interaction of the host cell with Dengue virus, and test them in a series of relevant infectious models for Dengue.
Regulation Of Nucleocytoplasmic Transport; Role In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$823,008.00
Summary
Transport into and out of the nucleus is central to the function of the cells from complex organisms such as mammals. This research program aims to improve understanding of nuclear transport and its regulation in the context of infection by medically relevant viruses, as well as in the context of cancer, and normal cell growth/development. It will contribute to developing new anti-viral therapeutics/vaccines, drug delivery strategies for cancer, and understanding causes of male infertility.
Nuclear Transport In Health And Disease; Towards Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
This research fellowship will enable new therapeutic approaches to viral disease and cancer that target the transport process. I have already licenced an inhibitory molecule for Dengue virus which is progressing towards the clinic. I will now extend my research into a vibrant translational program of developing anti-viral (HIV, Respiratory Syncytical Virus, VEEV) as well as anti-cancer agents that will represent realistic therapeutic options in the near future.
Macrophages are important cells at the front-line of immunity where one of their main roles is to release anti-bacterial proteins. We will study the macrophage molecules, subcellular organelles and pathways that help to release these proteins to kill bacteria and fight infection. Our studies will identify new cellular targets for boosting immunity and treating inherited diseases with defective macrophage function.
Subcellular Trafficking Of P Proteins Of Human Pathogenic Viruses: Roles In Viral Pathogenicity And Targeting For Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$578,352.00
Summary
In order to infect humans, pathogenic viruses such as rabies, Nipah, Hendra and Australian bat lyssavirus must be able to evade the immune response. To do this, viruses produce "interferon antagonists" that interfere with specific immune processes by mechanisms that are not fully understood. Our study will characterise the mechanisms used by rabies and other viruses to block immunity, and identify strategies to disable viral immune evasion, rendering these lethal viruses susceptible to destructi ....In order to infect humans, pathogenic viruses such as rabies, Nipah, Hendra and Australian bat lyssavirus must be able to evade the immune response. To do this, viruses produce "interferon antagonists" that interfere with specific immune processes by mechanisms that are not fully understood. Our study will characterise the mechanisms used by rabies and other viruses to block immunity, and identify strategies to disable viral immune evasion, rendering these lethal viruses susceptible to destruction by the human immune system.Read moreRead less
Function And Inhibition Of Plasmepsin V In Targeting Malaria Virulence Proteins Into Human Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$407,845.00
Summary
Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cel ....Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cell.Read moreRead less
Investigating the intercellular trafficking of proteins and RNA and its relevance to neurodegenerative diseases. Alzheimer's and prion diseases are neurodegenerative disorders associated with protein misfolding. This project brings together similar features of these diseases using novel cell- and animal-based studies to develop a greater understanding of the molecular basis of these disorders.