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Structural Characterisation Of A Natural Inhibitor Of Sporulation Bound To Its Histidine Kinase Target
Funder
National Health and Medical Research Council
Funding Amount
$261,000.00
Summary
Many bacteria, including some which are virulent pathogens such as anthrax (Bacillus anthracis), are able to enter a dormant state by forming spores (sporulation). These spores are extremely robust and may persist in the environment buried in the soil for example for hundreds of years. The initiation of sporulation occurs in response to changes in the cellular and environmental conditions which threaten the free replicating existence of the bacterium. The process of sporulation is controlled at ....Many bacteria, including some which are virulent pathogens such as anthrax (Bacillus anthracis), are able to enter a dormant state by forming spores (sporulation). These spores are extremely robust and may persist in the environment buried in the soil for example for hundreds of years. The initiation of sporulation occurs in response to changes in the cellular and environmental conditions which threaten the free replicating existence of the bacterium. The process of sporulation is controlled at the molecular level by a complex signaling relay. It is of course vital for the existence of the organism that control of sporulation is tightly regulated - preventing the onset of spore-formation in any but the desired circumstances. We aim to determine the three-dimensional structures of the molecules involved in this regulated process and how, by interacting with each other, they can pass on the signal to the bacterium to either start or stop the spore forming process. Ultimately, the results of this work might lead to antibacterial agents which could be used to control particularly dangerous strains of bacteria.Read moreRead less
Dengue viruses are transmitted by mosquitoes and cause major epidemics in more than 100 countries in tropical and subtropical regions. Infection with Dengue viruses cause Dengue fever or its more severe and sometimes fatal form, Dengue hemmorrhagic fever-Dengue shock syndrome (DHF-DSS). Up to 100 million people are infected annually making Dengue virus one of the most important and frequent mosquito-borne viral diseases worldwide. Over the past two decades, the incidence of Dengue virus infectio ....Dengue viruses are transmitted by mosquitoes and cause major epidemics in more than 100 countries in tropical and subtropical regions. Infection with Dengue viruses cause Dengue fever or its more severe and sometimes fatal form, Dengue hemmorrhagic fever-Dengue shock syndrome (DHF-DSS). Up to 100 million people are infected annually making Dengue virus one of the most important and frequent mosquito-borne viral diseases worldwide. Over the past two decades, the incidence of Dengue virus infection has increased steadily. More than 40% of the world's population is at risk of infection and this number is expected to increase as more people travel. This proposal focuses on the way dengue virus enters cells, specifically the mechanism used by viral proteins to mediate fusion of the viral membrane with that of the host cell. A clearer understanding of the molecular basis of this process should provide potential targets for new drugs that can bind and block this process. In addition, we will also use this information in the design and generation of new vaccine candidates.Read moreRead less
How Does A Host Cell Stimulatory Factor Stabilize The HIV-1 Reverse Transcription Complex?
Funder
National Health and Medical Research Council
Funding Amount
$631,883.00
Summary
We have identified a host cell activity which HIV uses to infect cells. The activity assists the uniques ability of HIV to convert its genome to a form which inserts itself into the host cell DNA. If we can identify the protein responsible for this activity we may be able to target it for drug development. Targetting host cell proteins rather than virus proteins for new drug may have advantages in preventing the acquisition of drug resistance.
Unravelling The Tetraspanin Web In The Schistosome Tegument.
Funder
National Health and Medical Research Council
Funding Amount
$309,537.00
Summary
Infection with the human blood fluke, Schistosoma mansoni, is a major human ailment affecting almost 200 million people world wide and causing approximately 200 000 deaths per year. Current control efforts rely on anthelminthic drugs but, to sustain their effects, they must be applied for an indefinite period of time due to reinfection. This project will extend recent efforts to develop a vaccine for this organism and decrease the public health burden and mortality associated with infection.
A Novel Cardiac Inotropic Mechanism That Provides Functional Benefit
Funder
National Health and Medical Research Council
Funding Amount
$413,936.00
Summary
Patients with heart failure are often treated with an inotropic agent to increase the force of the heart's contraction and thus improve quality of life for these patients. Most inotropic agents have deleterious effects that limit their usefullness. Mice that have increased alpha1-A receptor expression in their hearts have heightened contactility that is not associated with hypertrophy or arrhythmias. We will use microarray, and si-RNA delivery and signalling studies to identify the mechanism.
Long Acting Insulin: Drug Design, In Vitro Activity Through To Animal Model Efficacy
Funder
National Health and Medical Research Council
Funding Amount
$445,011.00
Summary
This research will develop novel insulins that possess improved stability and activity for diabetic patients. The improved pharmacological actions of the modified insulins offer increased treatment options for patients eg. enabling less frequent or invasive medication. Our cross-disciplinary team will (i) design and synthesise insulin derivatives, (ii) explore the activity of the modified insulins by biophysical activity profiles in vitro, (iii) evaluate the in vivo stability and clinical effect ....This research will develop novel insulins that possess improved stability and activity for diabetic patients. The improved pharmacological actions of the modified insulins offer increased treatment options for patients eg. enabling less frequent or invasive medication. Our cross-disciplinary team will (i) design and synthesise insulin derivatives, (ii) explore the activity of the modified insulins by biophysical activity profiles in vitro, (iii) evaluate the in vivo stability and clinical effects.Read moreRead less
Bcl-2 Proteins And The Regulation Of The Megakaryocyte Lineage.
Funder
National Health and Medical Research Council
Funding Amount
$416,240.00
Summary
Platelets are tiny cells that circulate in the blood. They are essential for blood clotting. Too few platelets leads to uncontrolled bleeding. Platelets are produced in the bone marrow by cells called 'megakaryocytes'. Cancer chemotherapy often causes dangerous decreases in platelet count - this is thought to be because it kills megakaryocytes. We will pinpoint the molecules responsible for megakaryocyte life and death. This has the potential to make the side effects of chemotherapy less severe.
The Mechanism Of Action Of Secreted Phospholipase A2 And Its Inhibition In Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$554,400.00
Summary
Secretory phospholipase A2 (sPLA2) is an important mediator of inflammation and is clinically associated with the onset and severity of several immune-mediated diseases including arthritis, asthma, atherosclerosis, psoriasis and recently prostate cancer. These are complex diseases which are poorly understood. We have shown that sPLA2 can by itself and in combination with inflammatory cytokines modulate signalling pathways in cells derived from the joints of patients with arthritis to upregulate ....Secretory phospholipase A2 (sPLA2) is an important mediator of inflammation and is clinically associated with the onset and severity of several immune-mediated diseases including arthritis, asthma, atherosclerosis, psoriasis and recently prostate cancer. These are complex diseases which are poorly understood. We have shown that sPLA2 can by itself and in combination with inflammatory cytokines modulate signalling pathways in cells derived from the joints of patients with arthritis to upregulate inflammatory molecules. How this happens is completely unknown. We plan to work out how this enzyme does this. We have also developed small cyclic peptide inhibitors of sPLA2 which potently block the function of the enzyme in these cells. We plan to determine how this happens and if these inhibitors are effective at blocking inflammation and arthritis. The proposal may identify new mechanisms by which secreted factors upregulate inflammation in human cells and may lead to the discovery of new ways to intervene to block these pathways.Read moreRead less