The Role Of Capsid Protein Nucleolar Localisation In Chikungunya Virus: Implications For Vaccine Development
Funder
National Health and Medical Research Council
Funding Amount
$520,520.00
Summary
Chikungunya virus (CHIKV) is a globally widespread mosquito-borne alphavirus capable of causing considerable human morbidity and mortality. With no CHIKV vaccine or antiviral available this proposal aims to develop a live attenuated CHIKV vaccine, rationally designed by investigating the host cell nucleolar trafficking of CHIKV capsid protein. This vaccine has the potential to provide cross-protection against additional arthritogenic alphaviruses endemic to Australia such as Ross River virus.
Characterising The Beta-catenin Nuclear Targeting Pathway In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$485,081.00
Summary
Bowel cancer is caused by inherited gene mutations that cause build-up of beta-catenin protein in the cell nucleus. Bowel cancer is the second largest cause of cancer deaths in Australia. We aim to study the mechanisms controlling beta-catenin accumulation in the nucleus. We will characterise new signalling pathways that control movement and activity of beta-catenin in the nucleus. This will yield insights into the role of beta-catenin in cancer and possible targets for therapy.
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
Approaches to combat AIDS and its causative agent, the human immunodeficiency virus HIV-1, have thus far proved ineffective. The proposed research program intends to investigate the nuclear import of two HIV-1 proteins which have central roles in HIV infection. We will apply our expertise in the area of the regulation of nuclear import of viral proteins, and build on our observations with respect to these proteins to attempt to establish the mechanistic basis of their nuclear import, and how thi ....Approaches to combat AIDS and its causative agent, the human immunodeficiency virus HIV-1, have thus far proved ineffective. The proposed research program intends to investigate the nuclear import of two HIV-1 proteins which have central roles in HIV infection. We will apply our expertise in the area of the regulation of nuclear import of viral proteins, and build on our observations with respect to these proteins to attempt to establish the mechanistic basis of their nuclear import, and how this differs from the conventional nuclear import pathways used by normal cellular proteins. We already have evidence that nuclear import of HIV-Tat is regulated in novel fashion by cellular factors, and intend, through determining its mechanistic basis, to be able to form the basis of a strategy to block this import pathway specifically, and thereby inhibit HIV replication. This may form the basis in the future of a new pharmaceutical approach to combat HIV-AIDS.Read moreRead less
Rotavirus is the main cause of severe diarrhoea in children worldwide. In this project, we aim to understand the nature of the first-line immune response to rotavirus in the gut, and elucidate how RV counteracts this response to promote infection. These studies will increase our understanding of how rotavirus causes disease, and facilitate the choice of rotavirus targets for drug development and improved vaccines.
Role Of Human SRY And SOX9 In Sex Determination And Disease.
Funder
National Health and Medical Research Council
Funding Amount
$308,820.00
Summary
The decision to develop as a male or female is controlled by a genetic pathway which culminates in the development of a testis or an ovary in the human embryo. The correct development of these reproductive organs depends on the coordinated activation of a network of genes by transcription factors. Analysis of patients with defective reproductive organs has shown that a number of these individuals have mutations in two transcription factor genes, SRY and SOX9. Mutations in SRY (Swyer syndrome) or ....The decision to develop as a male or female is controlled by a genetic pathway which culminates in the development of a testis or an ovary in the human embryo. The correct development of these reproductive organs depends on the coordinated activation of a network of genes by transcription factors. Analysis of patients with defective reproductive organs has shown that a number of these individuals have mutations in two transcription factor genes, SRY and SOX9. Mutations in SRY (Swyer syndrome) or SOX9 (autosomal sex reversal-campomelic dysplasia) cause the development of female reproductive structures in individuals with male chromosomes. Towards understanding how SRY and SOX9 work to determine sex, we have identified four proteins that interact with SRY and SOX9. Two of these proteins, called importin-beta and calmodulin have a role in transporting SRY and SOX9 into the cell nucleus. The other two proteins, called PC4 and HSP70, appear to be involved in co-operating with SRY and-or SOX9 to turn genes on. In the developing mouse testis, a large number of genes are expressed at the time immediately following the expression of SRY and SOX9. We will identify which of these 50 genes are being directly switched on or off by SRY and SOX9 during sex determination. These studies will identify how SRY and SOX9 direct normal testis formation and how mutations cause developmental defects. Also, by unravelling the testis formation pathway, we expect to identify new genes involved in sexual dysmorphology syndromes.Read moreRead less