The Role Of The Chemosensory Receptors Of The Enteric Pathogen C. Jejuni In Virulence And Host - Bacterial Interactions
Funder
National Health and Medical Research Council
Funding Amount
$517,897.00
Summary
Campylobacter jejuni is the greatest cause of bacterial gastroenteritis in the world. Consumption of contaminated meat or untreated water leads to disease often requiring hospitalisation. Campylobacter infection is also linked to the development of neoroparalytic disorders and reactive arthritis. This project aims to determine how this pathogen utilises surface molecules to sense its environment and cause disease. This information may be exploited to develop new treatments for mucosal infections ....Campylobacter jejuni is the greatest cause of bacterial gastroenteritis in the world. Consumption of contaminated meat or untreated water leads to disease often requiring hospitalisation. Campylobacter infection is also linked to the development of neoroparalytic disorders and reactive arthritis. This project aims to determine how this pathogen utilises surface molecules to sense its environment and cause disease. This information may be exploited to develop new treatments for mucosal infections.Read moreRead less
Role Of Streptococcus Agalactiae Glyceraldehyde 3-phosphate Dehydrogenase (GAPDH) In Infection And Potential As A Target To Control Colonization In The Female Genital Tract
Funder
National Health and Medical Research Council
Funding Amount
$677,177.00
Summary
Extracellular proteins produced by pathogenic bacteria can facilitate microbial colonization of the host by mediating binding to host cells and by modulating the immune system. These proteins exert their effects by subverting specific elements of the immune system and this can allow infection to worsen. This project will increase our understanding of how this bacterium chronically colonizes humans and will identify the potential of a bacterial protein, termed GAPDH, as a target for control.
Integrated Bacterial Genomics And Virulence Analysis Of Uropathogenic Streptococcus Agalactiae
Funder
National Health and Medical Research Council
Funding Amount
$747,457.00
Summary
Urinary tract infections (UTI), which start as a bladder infection and often evolve to encompass the kidneys, are among the most common infectious diseases in humans. Streptococcus agalactiae is an important cause of gram-positive bacterial UTI. We will study the genomes and functions of specific genes in reference strains of this bacterium isolated from patients with different forms of infection to elucidate how bacterial genes and virulence factors contribute to these types of infections.
Uncovering Novel Roles Of Escherichia Coli Flagella And LPS In Uropathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$404,677.00
Summary
Urinary tract infections (UTI) are common infectious diseases in humans. Uropathogenic Escherichia coli (UPEC) cause most UTI. UPEC produce factors that promote their survival and influence disease such as flagella. We have identified anti-inflammatory responses as a key element of UTI and have shown that these responses contribute to control of UTI. In this project, we will investigate how the UPEC flagella component, FliC, contributes to anti-inflammatory responses and what this means for UTI.
Long-term Macrolide Therapy; Oropharyngeal Dysbiosis And The Spread Of Resistant Pathogens
Funder
National Health and Medical Research Council
Funding Amount
$384,153.00
Summary
Use of macrolide therapy for chronic lung diseases is increasing rapidly. We will determine the impact of long-term macrolide antibiotic use on upper airway bacteria in patients with lung disease, and assess its contribution to antibiotic resistance in the wider community. We will investigate the mechanism by which this therapy achieves benefit and assess interference with bacterial signalling as a means to improve treatment efficacy and reduce induction of antibiotic resistance.
Antibiotic Resistance And The Ecological Effects Of Selective Decontamination Of The Digestive Tract In Intensive Care Units
Funder
National Health and Medical Research Council
Funding Amount
$901,396.00
Summary
We will study patients within a large trial of gut decontamination, in which antibiotics are given in advance to reduce the risk of infection. Specifically, we will determine whether there is any increased antibiotic resistance and even biodiversity loss, as some fear. This is a one-off chance to provide essential data that can help us design better national policies for antibiotic resistance control and a true personalised medicine approach to resistance and infection in ICU.
Design, Development And Analysis Of New Tuberculosis Drugs
Funder
National Health and Medical Research Council
Funding Amount
$736,628.00
Summary
Serious issues of drug resistance have emerged in tuberculosis prevention and are placing enormous pressure on global health systems. We have identified an enzyme of M. tuberculosis that is essential for its survival. This project will develop potent inhibitory compounds for this enzyme. Further, we will identify new drug targets through a screen to specifically identify the genes of the organism essential for its survival in the body. This information will be used to develop new TB drugs.
Protein Glycan Interactions In Infectious Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$9,182,220.00
Summary
Infectious diseases remain a serious threat to human health, accounting for over 10 million deaths each year. This is a broad-based collaborative proposal, building on our previous achievements. Its aim is to better understand the dynamic interactions between major disease-causing microbes and their human hosts, and to directly apply this new knowledge to the development of improved vaccines and novel treatment strategies. These are urgently needed to combat infectious diseases in the 21st centu ....Infectious diseases remain a serious threat to human health, accounting for over 10 million deaths each year. This is a broad-based collaborative proposal, building on our previous achievements. Its aim is to better understand the dynamic interactions between major disease-causing microbes and their human hosts, and to directly apply this new knowledge to the development of improved vaccines and novel treatment strategies. These are urgently needed to combat infectious diseases in the 21st century.Read moreRead less
Vaccine Discovery For Human Mucosal Pathogens: Identifying Novel Vaccine Antigens That Are Stably Expressed During Host Interactions, Using Analysis Of Cell-contact And Phasevarion Mediated Expression Profiles
Funder
National Health and Medical Research Council
Funding Amount
$418,482.00
Summary
The control of several human pathogens depends on vaccine development due to antibiotic resistance and the devastating outcome of infection. This work aims to identify new vaccine targets for diseases including gonorrhoae, ear infections, meningitis and sepsis, based on proteins required for interaction with human cells. Proteins that are randomly switched on and off in these bacteria will also be studied to better understand disease and to rule out variably expressed genes from new vaccines.
The biology, structure and function of bacterial virulence effectors. This project is closely aligned with the National Research Priority of Promoting and Maintaining Good Health and will establish a research framework to investigate novel virulence processes that allow bacterial pathogens to infect humans and cause disease. This fresh approach to the study of bacterial pathogenesis will sit outside classic genetic methods to investigate infection and immunity which rely heavily on genetic manip ....The biology, structure and function of bacterial virulence effectors. This project is closely aligned with the National Research Priority of Promoting and Maintaining Good Health and will establish a research framework to investigate novel virulence processes that allow bacterial pathogens to infect humans and cause disease. This fresh approach to the study of bacterial pathogenesis will sit outside classic genetic methods to investigate infection and immunity which rely heavily on genetic manipulation of the pathogen. Other than providing fundamental information on host-pathogen interactions, this work may lead to novel disease interventions by inhibition of bacterial virulence factor activity and/or enhancement of host inflammatory and immune responses.Read moreRead less