Glycan-glycan Interactions Between Bacterial Pathogens And Host Cells: A Novel Mechanism Of Bacterial Adherence, A New Opportunity For Strategies To Treat And Prevent Disease And A New Paradigm In Interactions Between Macromolecules.
Funder
National Health and Medical Research Council
Funding Amount
$1,059,344.00
Summary
Cell surface carbohydrates are ubiquitous throughout nature. Human cell surface carbohydrates are specifically targeted by microbial proteins. These interactions are crucial in causing disease. We have recently shown that the carbohydrates on our cells and those on pathogenic bacteria can interact with one another. Understanding the nature and role of these newly discovered interactions may lead to strategies to block them via new drugs and vaccines.
The Identification Of Novel Diagnostics And Therapeutics From Bacterial Viruses Specific For The Foodborne Pathogen Campylobacter Jejuni Using Mass Spectrometry.
Funder
National Health and Medical Research Council
Funding Amount
$313,788.00
Summary
Campylobacter jejuni is the leading cause of foodborne illness within Australia. To improve food safety there is a critical need for new therapeutics and diagnostics that target this agent. Within nature bacterial viruses possess proteins that can perform such a task. By using mass spectrometric analysis we aim to exploit billions of years of co-evolution to identify bacterial viral proteins that bind C. jejuni to identify novel means to limit and lower C. jejuni numbers in food sources.
The Glyco-interactome Of Pathogenic Neisseria: Understanding Disease And Defining Vaccine Targets
Funder
National Health and Medical Research Council
Funding Amount
$431,012.00
Summary
In order to infect humans and cause disease, many bacteria rely on interactions with carbohydrate (sugar) structures on human cells. This project aims to characterise the sugar interactions that enable Neisseria meningitidis (causes meningitis, sepsis) and Neisseria gonorrhoeae (causes gonorrhoea, associated with infertility and increased transmission of HIV) to cause disease. This will increase our understanding of host-pathogen interactions and aid development of new vaccines and therapeutics.
Targeting Glycointeractions To Generate New Opportunities To Treat And Prevent Bacterial Infections.
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
Bacteria and bacterial toxins can interact with complex sugar structures on human cells called glycans. My research team has identified new and important glycan interactions used by bacteria that cause diseases ranging from pneumonia, meningitis and food borne infections to urinary tract and sexually transmitted diseases. Now that these interactions have been discovered, they can be exploited to create drugs and vaccines that may treat and prevent disease by blocking the glycan interactions.