The proposed research project involves a fundamental biochemical and biophysical investigation of a protein (ABCA4) intimately involved in the visual process. The precise role of ABCA4 in vision has not yet been elucidated, although evidence suggests a role as a lipid translocase in the retinal regenerative pathway. Our primary objective is to provide direct evidence for this putative role.
Structural Investigation Into The Regulation Of The Colony Stimulating Factor Receptor, C-FMS.
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
The colony stimulating factor receptor, c-FMS is a member of a family of protein signalling molecules expressed on the cell surface that are implicated in the development of serious diseases in humans, such as inflammatory diseases and cancer. A number of important proteins bind to and regulate c-FMS in different ways. I intend to visualise these interactions to further understand how c-FMS activity is controlled by alternative means.
The HIV-1 Tat Protein Is An Reverse Transcription Co-factor.
Funder
National Health and Medical Research Council
Funding Amount
$404,592.00
Summary
HIV-1 is the virus that causes AIDS. In order for HIV-1 to grow, the viral genetic material must be converted into a form that is compatible with a human host. Specifically, the HIV-1 genetic material is made of RNA while the human genome is composed of DNA. An HIV-1 enzyme called reverse transcriptase (RT) is used for this purpose. We have discovered that another HIV-1 protein called Tat is also required for the efficient conversion of HIV-1 RNA into HIV-1 DNA. If HIV-1 lacks Tat, then this tra ....HIV-1 is the virus that causes AIDS. In order for HIV-1 to grow, the viral genetic material must be converted into a form that is compatible with a human host. Specifically, the HIV-1 genetic material is made of RNA while the human genome is composed of DNA. An HIV-1 enzyme called reverse transcriptase (RT) is used for this purpose. We have discovered that another HIV-1 protein called Tat is also required for the efficient conversion of HIV-1 RNA into HIV-1 DNA. If HIV-1 lacks Tat, then this transformation process is inefficient and HIV-1 is not able to grow. Recently our group made a breakthrough discovery on how Tat works. Tat can directly bind to RT and stimulate the conversion process. This research is aimed at a detailed analysis of Tat and RT interaction. This information is required in order to understand how this interaction can be blocked in order to stop HIV-1 growth. In the long-term, results produced by this research will be required to discover novel drugs to combat HIV-AIDS.Read moreRead less
Synthesis And Purification Of Flavivirus-specific Antiviral Factor Mrasal
Funder
National Health and Medical Research Council
Funding Amount
$140,000.00
Summary
In this proposal we suggest to develop an anti-flaviviral compound based on naturally occurring host factors associated with inborn flavivirus resistance observed in mice. We propose to synthesise and purify a mouse protein factor encoded by a gene (Mrasal), which we have previously mapped by mouse genetics and positional cloning to a narrow 300 kb chromosomal region on mouse chromosome 5 carrying flavivirus resistance locus (Flv). When this mouse gene was isolated, sub cloned into a mammalian e ....In this proposal we suggest to develop an anti-flaviviral compound based on naturally occurring host factors associated with inborn flavivirus resistance observed in mice. We propose to synthesise and purify a mouse protein factor encoded by a gene (Mrasal), which we have previously mapped by mouse genetics and positional cloning to a narrow 300 kb chromosomal region on mouse chromosome 5 carrying flavivirus resistance locus (Flv). When this mouse gene was isolated, sub cloned into a mammalian expression vector pcDNA3tag and transiently transfected and expressed in cos-7 and Vero cells, its product conferred antiviral effect to a flavivirus Murray Valley encephalitis (MVE), but not to a non-flavivirus encephalomyocarditis virus (EMCV). Mrasal protein operates as an antiviral host factor and confers a flavivirus specific resistance at the cellular level. It could be directly used for the treatment-cure of acute flavivirus infections in vivo. Our aims are to produce and purify the Mrasal protein for the in vivo delivery as a therapeutic compound into susceptible mice during the acute phase of flavivirus infection: 1. To synthesise and purify Mrasal protein using baculovirus system. 2. To encapsulate the protein into liposomes ready to be used in mice. 3. To perform initial testing in a limited number of susceptible mice.Read moreRead less
Biochemical Analysis Of Akt 3-specific Signal Transduction
Funder
National Health and Medical Research Council
Funding Amount
$349,375.00
Summary
The Akt family of enzymes consists of 3 protein kinases (Akt 1,2 and 3) and has been shown to regulate many normal cellular processes such as cell proliferation, growth, survival and motility, as well as the growth of new blood vessels. All these processes are critical for cancers to grow. However, few studies have distinguished the roles of the individual family members. Our preliminary data revealed Akt3 is far more active than the other two forms. Furthermore, using our unique Akt3 specific a ....The Akt family of enzymes consists of 3 protein kinases (Akt 1,2 and 3) and has been shown to regulate many normal cellular processes such as cell proliferation, growth, survival and motility, as well as the growth of new blood vessels. All these processes are critical for cancers to grow. However, few studies have distinguished the roles of the individual family members. Our preliminary data revealed Akt3 is far more active than the other two forms. Furthermore, using our unique Akt3 specific antibody, we find Akt 3 protein and activity levels are high in rapidly proliferating ovarian cancer cell lines and in primary ovarian tumours. The aim of this proposal is to characterise the mode and role of signalling via Akt3, including the identification of targeted substrates and signaling pathways and the outcomes of Akt3 driven signaling on cellular properties. These studies will provide important clues to understanding how this family member functions in both health and disease. Elucidation of the basis of Akt3 dependent signalling will open the possibility for the development of drugs that interfere with Akt3 function (for example in high Akt 3 expressing tumours like those of the ovary). In the long term, extension of our profiling studies to other tumour types will give a novel insight into the extent of Akt3 de-regulation as a key mediator of cancer formation.Read moreRead less
Schistosomes are parasitic flukes that survive in the blood vessels of their human hosts for many years. More than 200 million people are infected in developing countries, and Australian travelers to these regions are often infected. As larval schistosomes mature, they undergo physiological changes in the their outer surface, the tegument, and rapidly become refractory to vigorous immune responses. In the 1960's, researchers proposed that schistosomes evade otherwise destructive immune responses ....Schistosomes are parasitic flukes that survive in the blood vessels of their human hosts for many years. More than 200 million people are infected in developing countries, and Australian travelers to these regions are often infected. As larval schistosomes mature, they undergo physiological changes in the their outer surface, the tegument, and rapidly become refractory to vigorous immune responses. In the 1960's, researchers proposed that schistosomes evade otherwise destructive immune responses by masking their presence through the adsorption of host molecules onto the parasite surface. Intriguingly, most of the molecules adsorbed by the parasite are proteins involved in immune responses, such as MHC and immunoglobulins. In order to understand the molecular basis of schistosome maturation and masking, we recently isolated a protein that binds host IgG-Fc from the surfaces of schistosomes. We hypothesise that masking proteins expressed on the surface of developing parasites interfere with the development of protective immune responses by masking the otherwise susceptible tegument. Moreover, masking proteins are ideal candidate antigens for anti-schistosome vaccines. We now propose to test this hypothesis by identifying schistosome surface proteins that acquire host immune molecules, and isolate the genes encoding these parasite masking proteins. Masking proteins will be identified using protein-based affinity methods and differentially expressed gene- and protein-based methods. Recombinant masking proteins will then be assessed as unmasking vaccines in a mouse model of schistosomiasis. Elucidation of these aims should help to unravel the widely reported enigma of schistosome masking and the long-term survival of the parasite in the human bloodstream. By unmasking these parasites from their host-derived cloak, novel methods of controlling schistosomiasis will be revealed and efforts to develop a vaccine will be greatly accelerated.Read moreRead less