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
Mechanisms Underlying The Biochemical Activity Of Scabrosin Esters And Other Epipolythiodioxopiperazine Toxins.
Funder
National Health and Medical Research Council
Funding Amount
$256,527.00
Summary
Fungi produce a variety of chemicals which are toxic to animals. The fungi have probably developed the ability to synthesize and secrete these toxins as part of a chemical defence mechanism and-or in order to limit other microbial life forms because of nutrient competition. Some of these toxins will selectively kill microbes such as bacteria and other fungi as well as simpler life forms such as viruses, which can cause pathological changes to human beings. Fungal toxins may also be useful for co ....Fungi produce a variety of chemicals which are toxic to animals. The fungi have probably developed the ability to synthesize and secrete these toxins as part of a chemical defence mechanism and-or in order to limit other microbial life forms because of nutrient competition. Some of these toxins will selectively kill microbes such as bacteria and other fungi as well as simpler life forms such as viruses, which can cause pathological changes to human beings. Fungal toxins may also be useful for control of proliferative diseases such as cancer. Because fungi have had many millions of years to select for the most efficient toxins, they have been a valuable source of potent toxins for study. Some of these toxins are now in use clinically to treat human diseases ie penicillin and cyclosporin A. A fundamental understanding of fungal toxins is important to ensure the availability of new drugs to combat resistant strains of bacteria and to provide clues for the synthesis of new drugs to treat cancer which can also develop resistance to currently used drugs.Read moreRead less
Evaluation Of The Associations Between Childhood Asthma Hospitalisations, Outdoor Fungal Spores And Environmental Effect Modifiers.
Funder
National Health and Medical Research Council
Funding Amount
$141,558.00
Summary
Asthma is a major cause of childhood hospital admission, impairs quality of life, contributes to high financial burdens on families and health system and can lead to chronic lung problems. Little is known about the combined effects of outdoor fungi, air pollutants and viruses in causing asthma exacerbations. This research aims to investigate the role of outdoor fungi in child asthma hospitalisations and how their role links with respiratory viral infections and changes in air quality.
Molecular Basis For The Emergence Of Community Acquired Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$427,518.00
Summary
Golden Staph is a major problem in our hospitals but serious Golden Staph infections are increasingly common in the community, among otherwise healthy people who have had no contact with hospitals. This project will find out how Golden Staph is evolving to become more likely to cause disease in the community. This knowledge can then be used to design new strategies for early detection, prevention and treatment.
Helicobacter Pylori VacA Toxin: Modulation Of Human Mitochondrial Function By A Bacterial Pathogen
Funder
National Health and Medical Research Council
Funding Amount
$508,003.00
Summary
This work will greatly further our understanding of how a bacterium, Helicobacter pylori, causes stomach ulcers and cancer. We will use cutting edge model systems to study the VacA toxin that is secreted from the bacteria and is targeted to human cells. We will examine where the toxin goes and how it affects our cells. It is expected that the improved understanding that will arise from this work will assist researchers to better devise drugs against this prevalent pathogen.
Targeting A Bacterial Glyco-Achilles Heel To Make New Vaccines For Haemophilus Influenzae And Neisseria Gonorrhoeae.
Funder
National Health and Medical Research Council
Funding Amount
$526,950.00
Summary
The bacteria that cause gonorrhoea (N. gonorrhoeae), middle ear infections and exacerbations of chronic obstructive lung disease (H. influenzae) have become multi-drug resistant. These diseases are a major health and economic burden. In the absence of new drugs, a vaccine to prevent these diseases has emerged as a major unmet need in human health. In this grant, we will develop a new vaccine that targets a bacterial-specific sugar that we have discovered is the Achilles heel of these bacteria.
A Multi-protein Vaccine Targeting The Oral Pathogens Associated With Chronic Periodontitis
Funder
National Health and Medical Research Council
Funding Amount
$717,692.00
Summary
Periodontitis is a chronic inflammatory disease associated with specific bacteria leading to the destruction of the toothÍs supporting tissues and ultimately tooth loss and is a major public health problem in all societies. Our research is focused on designing a vaccine that targets the major bacteria associated with periodontitis. We aim to produce a triple antigen vaccine and investigate the applicability of a vaccine administered under the tongue as an alternative to needle injections.
New Therapeutic Approaches For Genetic Skeletal Disorders
Funder
National Health and Medical Research Council
Funding Amount
$961,150.00
Summary
Genetic skeletal disorders are a significant disease burden with limited therapeutic options. We will use mouse models of cartilage and bone disorders and human induced pluripotent stem cell derived bone and cartilage 'disease in a dish' models to test repurposed FDA-approved drugs and new drug candidates as novel therapeutic strategies.
Defining Pathogenic Mechanisms Of Intracellular Bacteria
Funder
National Health and Medical Research Council
Funding Amount
$494,691.00
Summary
This study explores how the bacterium Coxiella burnetii causes the serious infectious disease Q fever. Coxiella is a potential biological weapon because it is very stable in the environment and few organisms are required to cause disease. Coxiella is able to commandeer human cells to replicate in a specialized vacuole but little is understood about how they do this. We will examine the virulence factors of Coxiella and investigate how they allow the bacteria to replicate inside human cells.
Comparative Pathophysiology And Clinical Epidemiology Of Knowlesi Malaria
Funder
National Health and Medical Research Council
Funding Amount
$267,172.00
Summary
The simian parasite P. knowlesi is the most common cause of malaria in Malaysia and can cause severe and fatal disease. We are currently conducting a study of all malaria patients admitted to a tertiary referral hospital in Sabah, Malaysia. This will allow us to describe the epidemiological and clinical features of the hospitalised patients, including changes over time. We are also conducting novel pathophysiological studies which will allow us to understand how P. knowlesi causes sever disease.