A vaccine against the bacteria Group A streptococcus (‘strep’) could prevent common minor infections like sore throat and school sores as well as deadly ones like necrotising fasciitis (‘flesh eating disease’). It would also reduce long-term heart (rheumatic heart disease) and kidney problems. We are going to try and deliberately give a sore throat to adult volunteers under very close medical supervision so that we can learn more about immunity to strep and to help make and test new vaccines.
Mobility, Mixing And Infectious Disease Transmission Among Remote-living Indigenous Australians: Addressing A Knowledge Gap To Identify Effective Strategies For Sustained Disease Control
Funder
National Health and Medical Research Council
Funding Amount
$340,891.00
Summary
Indigenous Australians in remote communities experience extremely high rates of infections such as skin sores. I will study the mobility and social interactions of Indigenous people in remote communities in the Northern Territory to better understand how infectious diseases spread throughout these communities. This information will be used in mathematical models to plan the most effective strategies to permanently reduce the burden of infectious diseases among Indigenous Australians.
Worldwide Molecular Analysis Of Streptococcus Pyogenes Scarlet Fever Outbreaks
Funder
National Health and Medical Research Council
Funding Amount
$544,041.00
Summary
The microorganism group A Streptococcus (also called GAS or Streptococcus pyogenes) ranks among the top 10 infectious disease killers of humans. Recently, outbreaks of scarlet fever have occurred in both Asia and the United Kingdom, placing a serious strain on health systems. The reasons underlying these outbreaks remain unknown. Our team will lead the global effort to characterise this rise in scarlet fever, and provide recommendations and solutions to health professionals.
Structure And Biophysical Analysis Aided Design Of Novel Toxoid Vaccines For A Major Class Of Bacterial Toxins.
Funder
National Health and Medical Research Council
Funding Amount
$608,425.00
Summary
Inactivated bacterial toxins (toxoids), such as the tetanus vaccine, are safe and effective vaccines. Cholesterol dependent cytolysins (CDCs) are bacterial toxins produced by many important human pathogens including Group A Streptococcus (GAS) and Pneumococcus. GAS has no available vaccine and Pneumococcus does not have a universal vaccine. We have developed a new way of inactivating CDCs based on new knowledge of how they target human cells and will use this knowledge to make new vaccines.
Characterisation Of Immune Responses To Sarcoptes Scabiei Cysteine Proteases, Group 1 Allergen Homologues, In Scabies
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Scabies, a parasitic skin infestation by the 'itch' mite Sarcoptes scabiei, causes significant health problems for children and adults in many remote Aboriginal communities in Australia. Scabies is often the underlying cause of streptococcal skin infections which can cause serious complications such as kidney and heart disease. Although diagnosed scabies cases can be successfully treated, individuals have often already transmitted the disease to others prior to receiving therapy. A particularly ....Scabies, a parasitic skin infestation by the 'itch' mite Sarcoptes scabiei, causes significant health problems for children and adults in many remote Aboriginal communities in Australia. Scabies is often the underlying cause of streptococcal skin infections which can cause serious complications such as kidney and heart disease. Although diagnosed scabies cases can be successfully treated, individuals have often already transmitted the disease to others prior to receiving therapy. A particularly dreadful form of scabies, known as crusted scabies, can develop in a minority of people, in which mites multiply in their millions and the affected person develops severe crusting of the skin. This has resulted in death within 5 years for up to 50% of people with this form of scabies. Scabies mites are scientifically very similar to house dust mites, and they produce cross reactive proteins. Molecular studies in our laboratory have enabled the identification and cloning of a number of scabies molecules with considerable similarity to known house dust mite proteins that cause allergic disease. In this study we propose to focus on a group of scabies proteins with significant identity to the extensively studied Group 1 house dust mite allergens, reported to cause an immune response in 90% of mite allergic people. We propose to use these scabies mite molecules to characterise the immune response in ordinary scabies and compare it to the more severe and debilitating crusted form of the disease. Characterisation of the immune response in scabies will ultimately aid in the development of new treatment for crusted scabies based on immunotherapy. Studies will also investigate for any cross reactivity with the house dust mite group 1 molecules and enable the design of specific immunodiagnositics to distinguish house dust mite allergy from scabies infestation and thus facilitate early diagnosis of scabies carriers and better control of the infestation in endemic communities.Read moreRead less
Interrogation Of Streptococcal Genomic Epidemiology Within Disease Endemic Regions
Funder
National Health and Medical Research Council
Funding Amount
$325,896.00
Summary
Group A streptococcal (GAS) bacterial infections within the Indigenous populations of Northern Australia are amongst the highest in the world. This project uses comparative bacterial genomics to examine current and historical outbreaks of GAS disease in Northern Australia relative to globally sourced GAS. This will be used to examine the spread of disease causing GAS between remote communities as well as investigating genetic markers of disease and informing therapeutic interventions.