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.
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.
Transposable Element Mobility And Chromosomal Rearrangement In The Fungal Pathogen Cryptococcus During Human Infection
Funder
National Health and Medical Research Council
Funding Amount
$322,028.00
Summary
Pathogenic fungi present in the environment have emerged as an increasingly common threat to human health. Cryptococcus neoformans and the closely related species Cryptococcus gattii are the leading causes of life-threatening fungal meningitis, and Australia is one of the few countries where both species are prevalent. Although C. neoformans is an increasingly common cause of infection in immunocompromised patients such as those suffering from AIDS, approximately one in four infected individuals ....Pathogenic fungi present in the environment have emerged as an increasingly common threat to human health. Cryptococcus neoformans and the closely related species Cryptococcus gattii are the leading causes of life-threatening fungal meningitis, and Australia is one of the few countries where both species are prevalent. Although C. neoformans is an increasingly common cause of infection in immunocompromised patients such as those suffering from AIDS, approximately one in four infected individuals has no apparent immune system defect. For patients with AIDS, in the absence of antiretroviral therapy cryptococcal infection is incurable and requires lifelong treatment with antifungal medication to keep the infection in check. During infection, Cryptococcus is under tremendous stress enforced not only by the immune system and the presence of antifungals, but also by the high temperature, nutrient limiting environment encountered in the host. The proposed research will reveal how Cryptococcus evolves in this environment to enable persistence of infection despite medical intervention. I propose that naturally occurring mobile genetic elements present in the Cryptococcus genome cause chromosomal rearrangements during long term infection to produce gene deletions and duplications that facilitate survival. By characterising these changes and the genes associated with them, the research will identify novel genes involved in pathogenesis and will increase our understanding of the infection process. The expected outcome of this project is a detailed understanding of the roles mobile element movement and chromosomal rearrangement play in Cryptococcus during infection, and how these affect genes that contribute to the pathogenic process. The fundamental knowledge gained from this study will facilitate studies designed to combat infections in the clinical setting, provide new drug targets and help foster the development of more effective therapies.Read moreRead less
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.
Phylogeny As A Basis For Molecular Identification Of Pathogenic Fungi
Funder
National Health and Medical Research Council
Funding Amount
$440,750.00
Summary
Pathogenic fungi are becoming increasingly important in causing potentially life-threatening diseases in immunocompromised hosts (e.g. AIDS, transplant patients). Many of the emerging fungal pathogens are inherently resistent to triazole antifungal drugs and clinical responses to established drugs remain suboptimal, despite apparent sensitivity in the laboratory. Current techniques of fungal identification are insensitive, unspecific, slow, labour-intensive and require skilled personnel for the ....Pathogenic fungi are becoming increasingly important in causing potentially life-threatening diseases in immunocompromised hosts (e.g. AIDS, transplant patients). Many of the emerging fungal pathogens are inherently resistent to triazole antifungal drugs and clinical responses to established drugs remain suboptimal, despite apparent sensitivity in the laboratory. Current techniques of fungal identification are insensitive, unspecific, slow, labour-intensive and require skilled personnel for the ID of less common fungi. To improve clinical outcomes by prompt selection-initiation of the best antifungal regimes, and to truncate the interval from initiation of therapy to cure, early, accurate identification of the causative agent is crucial, making a fast identification to the species level after culture or direct from clinical specimens a necessity. A correct fungal identification can only be achieved if the phylogenetic relationships between the pathogenic organisms and their taxonomy is resolved. Gene detection is more reproducible than detection of morphological and biochemical differences. The proposal focuses on the establishment of an accurate phylogenetic system of pathogenic fungi, which will form the basis of a universally applicable molecular identification system and to develop a molecular reference database for human pathogenic fungi. This project will contribute sequence data of pathogenic fungi to the Tree of Life project. This project unites expertise in classical mycology, molecular biology, bioinformatics and infectious diseases, to develop an accurate phylogeny of medically important fungi, providing a unique opportunity to establish a quality controlled reference database accessible via the world-wide-web. This will provide a faster and more accurate ID of pathogenic fungi, which will lead to better clinical treatment.Read moreRead less