Targeting Toxoplasma Gondii Latent Stages Responsible For Chronic Disease
Funder
National Health and Medical Research Council
Funding Amount
$697,107.00
Summary
Many microbial pathogens become resistant to host immune response and drugs by entering a slow-growing, dormant state. These stages are commonly responsible for long term, chronic infections. We will investigate the molecular basis of dormancy in Toxoplasma gondii, which infects one in three people. These studies will identify metabolic pathways that are essential for dormancy with the view of developing new therapies for treating long term, recurrent infections.
Metabolomic Analysis Of Plasmodum Falciparum And Mode Of Action Of Antimalarial Compounds
Funder
National Health and Medical Research Council
Funding Amount
$917,196.00
Summary
There is an urgent need to develop new drugs to treat malaria, one of the most important diseases to afflict humanity. We have developed new analytical approaches for measuring parasite metabolism while they live inside host cells. These approaches will be used to identify metabolic pathways that are essential for parasite infectivity and to understand the mode of action of new classes of antimalarial compounds
One third of the world's population is infected with the protozoan parasite, Toxoplasma gondii, which can cause life-threatening infections. This proposal will utilize new analytical technologies to understand how these parasites are able to survive in a wide variety of different host cells, how they manage to persist within brain and muscle tissue for the life of the patient and how infection may be linked to mental health disorders, such as schizopohrenia.
A Targeted Molecular Approach To Treating Scabies And Associated Bacterial Infections.
Funder
National Health and Medical Research Council
Funding Amount
$518,334.00
Summary
Chronic infestation of human skin with parasitic scabies mites is a severe health burden in Australian Indigenous communities and other disadvantaged communities around the world. Secondary infections with bacteria exacerbate this skin problem, with long-term, systemic and often fatal consequences including rheumatic heart disease. Analyses of the scabies mite genome and associated bacteria will accelerate biomedical research toward improved treatment and control of this neglected disease.
Functional Characterisation Of The Malaria Protein Export Machinery
Funder
National Health and Medical Research Council
Funding Amount
$556,104.00
Summary
The ability of malaria parasites to cause one of the most devastating infectious diseases of humans is in part due to their ability to export hundreds of proteins into their host red blood cells to obtain nutrients, evade the immune system and contribute to associated pathologies. Recently, we discovered the molecular machine that exports proteins into the host cell and so now we wish to establish how it works so that drugs can be tailored to block it to kill these parasites.
Immunology And Pathogenesis Of Malaria: Basic And Translational Research
Funder
National Health and Medical Research Council
Funding Amount
$727,685.00
Summary
Malaria is one of the most serious infectious diseases of humanity, killing 1-2 million children annually. In order to develop effective vaccines and interventions, it is important to understand both the causes of fatality and how to develop immunity to the disease. This application will continue a very strong international track record in malaria research ranging from basic lab-based molecular studies through to commercial development and population based health studies and policy formulation.
Understanding The Development Of Humoral Immunity To Malaria Merozoites
Funder
National Health and Medical Research Council
Funding Amount
$642,804.00
Summary
We will examine the acquisition of antibody responses to various P. falciparum surface antigens and their association with reduced risk of re-infection and symptomatic malaria in a treatment re-infection study of children from a malaria endemic area of Papua New Guinea. The effector mechanisms by which protective antibodies control parasite burden will be idendify. Defining the antigenic targets and effector mechanisms of immunity is essential for developing anti-malarial vaccines.
The Role Of Chemokine Networks In Severe Malaria And The Control Of Parasite Density
Funder
National Health and Medical Research Council
Funding Amount
$620,731.00
Summary
Two contributing factors have been identified as the main determinants of severe malaria: high parasite densities and host inflammatory responses. To date it is not clear whether inflammation is a cause or a consequence of high parasite densities. We have identified a new biomarker (IP-10) of disease severity in a malaria-endemic area of Papua New Guinea that is associated with high parasite densities. Here we will decipher the mechanisms by which IP-10 contributes to the development of high par ....Two contributing factors have been identified as the main determinants of severe malaria: high parasite densities and host inflammatory responses. To date it is not clear whether inflammation is a cause or a consequence of high parasite densities. We have identified a new biomarker (IP-10) of disease severity in a malaria-endemic area of Papua New Guinea that is associated with high parasite densities. Here we will decipher the mechanisms by which IP-10 contributes to the development of high parasite burden and severe malaria.Read moreRead less