Enhancing immunogenicity of DNA vaccines by targeted delivery to antigen presenting cells. Vaccines have proven to be one of the most effective means of preventing infection and also provide promise as a treatment for cancer. However, the range of effective technologies that make possible the delivery of vaccines that can protect against a broad range of infections is limited. DNA based vaccines are attractive because they are relatively easy to produce against a wide range of infections. Howeve ....Enhancing immunogenicity of DNA vaccines by targeted delivery to antigen presenting cells. Vaccines have proven to be one of the most effective means of preventing infection and also provide promise as a treatment for cancer. However, the range of effective technologies that make possible the delivery of vaccines that can protect against a broad range of infections is limited. DNA based vaccines are attractive because they are relatively easy to produce against a wide range of infections. However, DNA vaccines often provide poor protection against infections. This project will explore a unique technology developed in Australia and that will greatly improve the effectiveness of DNA vaccines against a broad range of diseases. Read moreRead less
The Impact Of Reduced Plasmodium Falciparum And Plasmodium Vivax Transmission On The Epidemiology Of Malaria And The Acquisition Of Antigen-specific Recall Responses In Children From Papua New Guinea.
Funder
National Health and Medical Research Council
Funding Amount
$365,166.00
Summary
Malaria represents a significant global health burden in endemic countries. Individuals gradually develop a level of immunity to the clinical symptoms of malaria as a result of continued exposure throughout their lifetime. Efforts to implement effective malaria control strategies are increasing, thereby reducing exposure. This project will investigate how such strategies will impact on the development of immunity to malaria and the amount of clinical disease observed in different age groups.
Identification of novel markers of inflammation. This project will benefit Australia as it will increase basic understanding of inflammatory processes, result in a new generation of diagnostics for inflammatory diseases that could lead to earlier diagnosis and to monitor treatment, resulting in large economic and health benefit. It may lead to development of novel new therapies using monoclonal antibodies to regulate processes in immune, cardiovascular and infectious diseases. The work will gene ....Identification of novel markers of inflammation. This project will benefit Australia as it will increase basic understanding of inflammatory processes, result in a new generation of diagnostics for inflammatory diseases that could lead to earlier diagnosis and to monitor treatment, resulting in large economic and health benefit. It may lead to development of novel new therapies using monoclonal antibodies to regulate processes in immune, cardiovascular and infectious diseases. The work will generate significant economic spin-offs to the Australian biotechnology industry and will further relationships and training between research and development.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100165
Funder
Australian Research Council
Funding Amount
$451,900.00
Summary
Engineering T cells to promote peripheral immunity. Tissue-resident memory T cells (TRM) are key for immune protection against infections and cancer. This has led to much interest in understanding how these immune cells develop, although elucidation of molecules that regulate TRM are still scarce. This project aims to (i) identify genetic drivers of TRM in peripheral organs and (ii) modulate TRM generation utilising state-of-the-art genetic engineering techniques. Expected outcomes include gener ....Engineering T cells to promote peripheral immunity. Tissue-resident memory T cells (TRM) are key for immune protection against infections and cancer. This has led to much interest in understanding how these immune cells develop, although elucidation of molecules that regulate TRM are still scarce. This project aims to (i) identify genetic drivers of TRM in peripheral organs and (ii) modulate TRM generation utilising state-of-the-art genetic engineering techniques. Expected outcomes include generating new knowledge that will contribute to the development of novel therapeutics against infectious disease and cancer, together with the benefit of promoting national and international collaboration with the ultimate goal of improving health.Read moreRead less
Modulation Of Leishmaniasis By The Proinflammatory Cytokines TNF
Funder
National Health and Medical Research Council
Funding Amount
$288,911.00
Summary
We have established a mouse model that has been genetically modified and cannot produce the cytokine tumour necrosis factor. This cytokine is secreted in the beginning of the inflammatory response. If these mice are infected with a parasite they are not able to heal the infection and die quickly. We can demonstrate that these mice cannot regulate the beginning inflammatory response and do not form a cellular infiltrate at the site of infection.
Special Research Initiatives - Grant ID: SR0354678
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Australian Initiative for Malaria (AIM). Malaria is a major global health problem with 500 million people infected and 2-3 million deaths per year. Australia has an extraordinary capacity in malaria research publishing more papers per capita than any other country. The Australian Initiative for Malaria will weld this critical mass into a stronger and more cohesive unit better able to capitalise on new developments in malaria research and will allow us to tackle the enormous problem malaria pre ....Australian Initiative for Malaria (AIM). Malaria is a major global health problem with 500 million people infected and 2-3 million deaths per year. Australia has an extraordinary capacity in malaria research publishing more papers per capita than any other country. The Australian Initiative for Malaria will weld this critical mass into a stronger and more cohesive unit better able to capitalise on new developments in malaria research and will allow us to tackle the enormous problem malaria presents to our region. We will integrate our research expertise with regional laboratories in PNG, E Timor, Solomon Is, Indonesia and Thailand.Read moreRead less
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
Escape And Reversion Of Critical Immune Responses: Insights Into Effective Immunity To HIV
Funder
National Health and Medical Research Council
Funding Amount
$372,446.00
Summary
The HIV pandemic is a global emergency. The overall goal of this grant proposal is to elucidate the requirements for protective immunity to HIV. Although immune responses have some effect on HIV replication, the virus mutates and evolves to escape immune pressure. However, each mutation away from wild-type virus likely results in at least some impairment in the ability of the virus to replicate. Where efficient immune responses target regions of the virus that are critical to virus replication, ....The HIV pandemic is a global emergency. The overall goal of this grant proposal is to elucidate the requirements for protective immunity to HIV. Although immune responses have some effect on HIV replication, the virus mutates and evolves to escape immune pressure. However, each mutation away from wild-type virus likely results in at least some impairment in the ability of the virus to replicate. Where efficient immune responses target regions of the virus that are critical to virus replication, escape mutations may result in viral variants incapable of causing disease. Resulting from an exciting collaboration between HIV and theoretical biologists, we have recently identified techniques to calculate the effectiveness of immunity and the cost of subsequent immune escape variants. We will use and expand these techniques to identify immune responses that result in the most effective control of viral replication. These studies will lead to ways to improve HIV vaccines and thereby prevent HIV.Read moreRead less