Characterising The Role Of IL-37 In The Development Of H. Pylori Infection.
Funder
National Health and Medical Research Council
Funding Amount
$641,992.00
Summary
H. pylori infects more than 50% of the worlds population and is the causative agent of gastric cancer, the second leading cause of cancer-related deaths worldwide. Infection with H. pylori occurs during early childhood and persists within the host for life, causing immune suppression and therefore preventing clearance of the infection from the individual. We will examine a newly identified mechanism of H. pylori-induced immune suppression in humans in an attempt to provide novel treatments.
Molecular Mechanisms Of Persistence Of Mycobacterium Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$398,142.00
Summary
Mycobacterium tuberculosis is the bacterium that causes tuberculosis (TB. It infects about third of all people in the world and kills several million people each year. People with active TB spread the mycobacteria in aerosols from their breath. When another person inhales an infected aerosol the mycobacteria enter their lungs and establish a new infection. During the course of infection M. tuberculosis is exposed to a variety of harsh environments inside the lungs which normally kill other bacte ....Mycobacterium tuberculosis is the bacterium that causes tuberculosis (TB. It infects about third of all people in the world and kills several million people each year. People with active TB spread the mycobacteria in aerosols from their breath. When another person inhales an infected aerosol the mycobacteria enter their lungs and establish a new infection. During the course of infection M. tuberculosis is exposed to a variety of harsh environments inside the lungs which normally kill other bacteria. M. tuberculosis is able to survive and adapt to those harsh environments. M. tuberculosis has an especially thick and tough cell wall which protects it. M. tuberculosis can adapt to the environments it encounters in a patient by changing their cell walls. The wall also protects mycobacteria from chemicals so it is resistant to many common antibiotics. There are some drugs to treat TB however M. tuberculosis is building up resistance to those drugs so we need to find new ones We will determine how mycobacteria synthesize their special cell wall and how they adapt during an infection. If we know how the details of how M. tuberculosis protects itself then we can find potential weakness which could be targets for the development of new drugs to treat TB.Read moreRead less
Comparative Expression Studies To Identify Cellular Factors Promoting Hendra Virus Replication For A Comprehensive Understanding Of Hendra Virus Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$374,619.00
Summary
Hendra virus (HeV) is an emerging pathogen indigenous to fruit bats. HeV is associated with limited outbreaks with high mortality in domesticated animals and humans. To advance the understanding of HeV-related pathogenesis, we will perform comparative studies in bat and human cell lines to recognise differences in virus-host cell interactions leading to a comprehensive understanding of the HeV life cycle and pathogenesis.
Regulatory Networks Controlling The Interaction Of Neisseria Gonorrhoeae With The Human Host
Funder
National Health and Medical Research Council
Funding Amount
$361,091.00
Summary
What does Neisseria gonorrhoeae switch on when entering a human cell? Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease (STD) gonorrhoea and globally causes approximately 20-60 million new cases per annum (WHO). Gonococcal infection is the leading cause of pelvic inflammatory disease in women and ~ one third of patients will become infertile. Increased levels of resistance to traditional antibiotics have raised concerns for future treatment options. To date no succ ....What does Neisseria gonorrhoeae switch on when entering a human cell? Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease (STD) gonorrhoea and globally causes approximately 20-60 million new cases per annum (WHO). Gonococcal infection is the leading cause of pelvic inflammatory disease in women and ~ one third of patients will become infertile. Increased levels of resistance to traditional antibiotics have raised concerns for future treatment options. To date no successful vaccine strategies have been developed for this organism, primarily because the cell surface proteins elicit limited immunological protection against other strains. To enable the development of innovative approaches to the control of gonococcal infections, we propose to investigate the regulatory networks in gonococci that are important for initial colonization and survival in the human host. We will examine the role of a class of proteins, called sigma factors, that control the expression of a large number of genes in a concerted fashion. The sigma factors themselves do not recognize environmental signals, but their activity is controlled by a complicated array of proteins that are responsive to changing conditions in the bacterial cell. We have for the first time in any bacterial pathogen, identified all of the genes controlled by sigma factors in the obligate human pathogen, Neisseria gonorrhoeae. We have also found that the mechanisms controlling the activity of the sigma factors in this organism are different to those found in other bacterial pathogens. Our aim is to understand the mechanisms that control sigma factors and to gain insight into how N. gonorrhoeae sense and responds to the host cell during infections.Read moreRead less
Dissecting The Pathogenic Triad Of Enteric Pathogens: Assembly, Structure And Function Of Autotransporter Proteases
Funder
National Health and Medical Research Council
Funding Amount
$639,428.00
Summary
SPATEs are proteases secreted by many enteric bacteria that contribute to their pathogenic potential by damaging host tissues and evading the host immune response. We aim to study the structural basis of their assembly and biological function. The information we gain will assist the development of new diagnostics and improved therapies for enteric infections.
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
Evolution And Pathogenicity Of NDM-1 Positive Escherichia Coli
Funder
National Health and Medical Research Council
Funding Amount
$643,275.00
Summary
Antibiotic resistance (AR), as highlighted by the WHO, is the most pressing medical need of the 21C – some infections are now untreatable. Our research will focus on the new "superbug" NDM-1 positive E. coli. We will correlate AR and pathogenicity and explore the evolution of these "superbugs" using state-of-the-art sequencing. This research will benefit Australian medicine by predicting timelines of AR epidemics and by conducting the first analyses on the virulence potential of these strains.
A Mechanism For Regulation Of Oral And Gut Microflora By Interaction Of Salivary Metabolites With Breast Milk
Funder
National Health and Medical Research Council
Funding Amount
$616,687.00
Summary
Saliva "lacks the drama of blood, the sincerity of sweat & the emotional appeal of tears". But spit has important roles for the mouth & digestion. Now researchers in Brisbane have found baby dribble has natural chemicals that form ‘nucleotides’ in cells. They are testing the theory that the nucleotides encourage friendly bacteria in the mouth & gut. When baby saliva mixes with breast milk it also makes natural antibiotics called 'oxidative radicals' that stop bad bacteria. This may be part of th ....Saliva "lacks the drama of blood, the sincerity of sweat & the emotional appeal of tears". But spit has important roles for the mouth & digestion. Now researchers in Brisbane have found baby dribble has natural chemicals that form ‘nucleotides’ in cells. They are testing the theory that the nucleotides encourage friendly bacteria in the mouth & gut. When baby saliva mixes with breast milk it also makes natural antibiotics called 'oxidative radicals' that stop bad bacteria. This may be part of the mechanism ensuring "Breast is best" for babies.Read moreRead less
The diversity of HIV quasispecies within a single AIDS patient is far greater than the global diversity of influeneza annually, highlighting the enormous burden HIV imposes on the immune network. The capacity of HIV-1 to evolve quickly has significantly impaired our effort to produce effective vaccine and long lasting treatment strategy. This project utilizes multidisciplinary approaches to delineate determinants that drives the diversification of HIV-1.