Elucidation Of Proteins Expressed By Pathogenic Fungi During Animal Infection
Funder
National Health and Medical Research Council
Funding Amount
$558,267.00
Summary
Fungi cause a diverse range of diseases and are very difficult to treat. This project looks at the proteins that are made by infectious fungi while they are causing disease in animal cells. Proteins made in particularly high abundance may be essential for the fungus to live and grow in animal tissues. By specifically targeting their production, it should be possible to stop the infection without harming the host cell.
The pathogen Cryptococcus neoformans is responsible for hundreds of thousands of deaths annually. If the infection is survived, relapse caused by evolved forms of the original infecting strain is common. Our research has uncovered similar genetic changes in isolates from unrelated patients that implicate epigenetic processes in relapse and reveal potential vulnerabilities of the pathogen. The proposed work is to investigate these changes to assist in our antifungal drug development efforts.
Certain bacterial DNA repeats are prone to hyper mutation. Genes with these repeats, Contingency genes, are randomly switched on and off. This process, phase variation , generates diversity in a population. Recently we described a new class of contingency gene that methylates DNA. On-off switching of this gene leads to random switching of multiple genes; the phasevarion . We will define the impact of this system in bacteria causing meningitis and STDs.
Targeting Fungal Phospholipid Metabolism For Antifungal Drug Discovery
Funder
National Health and Medical Research Council
Funding Amount
$828,557.00
Summary
Invasive fungal infections are a serious and escalating health problem. They cause severe disease with a high death rate and are very costly to the health system. New antifungal drugs with novel properties are needed now because there are problems with current drugs. This project aims to develop potent new antifungal drugs that are effective in many fungal diseases and are well-tolerated.
Finding Therapeutic Targets For An Opportunistic Human Fungal Pathogen
Funder
National Health and Medical Research Council
Funding Amount
$404,068.00
Summary
Penicillium marneffei is a fungus that causes disease in patients with depressed immunity. This project models this infection in zebrafish, which have advantages for modelling infectious disease. It uses fluorescent fungi and fish with fluorescent immune cells to study the way white blood cells fight this infection, and mutant zebrafish and mutant fungi to find new therapeutic targets in the host-pathogen interaction.
Investigating The Interface Between Host Innate Immune Cells And A Fungal Pathogen
Funder
National Health and Medical Research Council
Funding Amount
$578,085.00
Summary
Fungi which infect humans are a major health problem, especially for those with compromised immune systems (eg. AIDS, transplant and cancer patients). These fungi cause disease by evading the immune system whilst deriving nutrients for growth. Some fungi evade the immune system by residing within host cells; a hostile and nutrient poor environment. This project will study a pathway that we have shown is required for growth inside host cells. This knowledge will open new avenues for treatment.
The Role Of Fatty Acid Metabolism In Pathogenicity.
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
Fungi which infect humans are a major health problem, especially for those with compromised immune systems (eg. AIDS, transplant and cancer patients). Pathogenic fungi must evade the host s immune system whilst deriving nutrients for growth. Some fungi evade the immune system by residing within host cells. This poses significant challenges to growth due to the nutrient poor environment. By understanding how these fungi adapt to growth inside host cells, new avenues for treatment will emerge.
Molecular Mechanisms Of Intracellular Growth, Survival And Pathogenicity
Funder
National Health and Medical Research Council
Funding Amount
$335,816.00
Summary
Fungi which infect humans are a major health problem, especially for those with compromised immune systems (eg. AIDS, transplant and cancer patients). These fungi cause disease by evading the immune system whilst deriving nutrients for growth. Some fungi evade the immune system by residing within host cells; a hostile and nutrient poor environment. This project will study a pathway that we have shown is required for growth inside host cells. This knowledge will open new avenues for treatment.
Genomic Characterisation Of Novel Inflammatory Regulators In A Mouse Model Of Disseminated Candidiasis
Funder
National Health and Medical Research Council
Funding Amount
$581,427.00
Summary
Genome biology offers great promise for the study of immune function, but new approaches are needed to build insights between data and disease. This project looks at the gene products used by mice susceptible to yeast infection and asks if the information is used differently in resistant animals. Blood-borne fungal infections are increasing in hospitals; we want to discover new immune gene products and understand how they contribute, so we can better predict the outcome of an infection.