Drug targets in the relict plastid of malaria parasites. Malaria is a major world health problem and new drugs are needed urgently. Essential genes are potentially excellent targets for anti-malarial drugs. This project will use a novel strategy to identify genes that the parasite cannot exist without. Function and drug potential of these genes will be explored.
Mechanisms of human immunodeficiency virus entry into cells. This project will develop an understanding of how human immunodeficiency virus (HIV) evolves in people to become better able to infect, and hence destroy, cells of the immune system. It is expected that new knowledge into how HIV alters the way it interacts with these cells will reveal insights for the design of vaccines, drugs and new diagnostic tests.
Designing effective Gram negative bacterial vaccines. There is a need for the development of novel vaccines for use in animals and humans. This project will to address this need by studying the functions of bacterial 'blebs' as potent inducers of the host immune system and by developing these nano-sized particles for use as safe and cost-effective vaccine candidates.
Immuno-epidemiological insights into the development of immunity to malaria and drug resistance. This project aims to better understand the maintenance and acquisition of immunity to malaria in high risk groups. It will also attempt to elucidate how immunity can interfere with the therapeutic efficacy of antimalarials, especially in the assessment of emerging drug resistance. The over-riding hypothesis is that differences in malaria transmission will lead to differential acquisition of immunity ....Immuno-epidemiological insights into the development of immunity to malaria and drug resistance. This project aims to better understand the maintenance and acquisition of immunity to malaria in high risk groups. It will also attempt to elucidate how immunity can interfere with the therapeutic efficacy of antimalarials, especially in the assessment of emerging drug resistance. The over-riding hypothesis is that differences in malaria transmission will lead to differential acquisition of immunity and efficacy of malaria interventions within and between populations. Understanding immunity to malaria is pivotal to develop new interventions, to understand the effectiveness of current malaria treatment and control programs to reduce the global burden of malarial disease.Read moreRead less
Drug targets in malaria parasites. Malaria is rampant throughout our Region and hinders the economies of our neighbours reducing regional prosperity and stability. Australian security and aid personnel deployed in the Region contract malaria infections and global warming could bring malaria-carrying mosquitoes south to Sydney. Australia is pre-eminent in malaria research, making lead discoveries in vaccine and drug development. However, we lack crucial resources to study the parasite in the mo ....Drug targets in malaria parasites. Malaria is rampant throughout our Region and hinders the economies of our neighbours reducing regional prosperity and stability. Australian security and aid personnel deployed in the Region contract malaria infections and global warming could bring malaria-carrying mosquitoes south to Sydney. Australia is pre-eminent in malaria research, making lead discoveries in vaccine and drug development. However, we lack crucial resources to study the parasite in the mosquito phase of its life cycle. The Federation Fellowship will create a malaria mosquito facility to redress this crucial gap in our capability. The Fellowship will double as foreign aid investment by enhancing our capacity to protect ourselves as well as supporting our neighbours.Read moreRead less
New drugs for malaria that target histone deacetylases. There is no vaccine for malaria and current drugs are failing, contributing to millions of malaria-related deaths each year. The aim of this project is to develop new drugs to address this significant global health issue. This project will focus on drugs that act in novel ways to existing malaria drugs by targeting enzymes that are involved in altering gene expression in the parasite. These kinds of enzymes are recognised drug targets in ot ....New drugs for malaria that target histone deacetylases. There is no vaccine for malaria and current drugs are failing, contributing to millions of malaria-related deaths each year. The aim of this project is to develop new drugs to address this significant global health issue. This project will focus on drugs that act in novel ways to existing malaria drugs by targeting enzymes that are involved in altering gene expression in the parasite. These kinds of enzymes are recognised drug targets in other diseases such as cancer. The outcomes of this project will include advances in malaria drug development that build on Australian drug discovery efforts, seeding further funding opportunities from industry and other sources and contributing research training and capacity building in Australia.Read moreRead less
Transcriptional control of antigenic variation in the malaria parasite Plasmodium falciparum. Malaria is a major health concern for the Australian Defence Personnel recently deployed in East Timor, Afghanistan and the Solomon Islands and is endemic in our immediate neighbours Indonesia and Papua New Guinea. Australia is susceptible to malaria and climate change could extend the mosquitos range to large population centres of Northern Australia causing malaria in Australia. This study would clarif ....Transcriptional control of antigenic variation in the malaria parasite Plasmodium falciparum. Malaria is a major health concern for the Australian Defence Personnel recently deployed in East Timor, Afghanistan and the Solomon Islands and is endemic in our immediate neighbours Indonesia and Papua New Guinea. Australia is susceptible to malaria and climate change could extend the mosquitos range to large population centres of Northern Australia causing malaria in Australia. This study would clarify how malaria parasites evade the host's immune response and help to protect Australia by providing drug targets for the control of this invasive disease.Read moreRead less
The development and evaluation of a new therapy for the prevention and treatment of bacterial infections in hospitals. The technology used in this project will enable products to be developed from the Australian dairy industry which may safely provide protection and treatment for diarrhoea acquired in hospitals for which there are few effective options. The product will be cost effective and can be used as a public health tool to control outbreaks in those most susceptible to severe disease.
Understanding the dynamics of malaria infection. Malaria infection kills around one million patients each year and this project involves an interdisciplinary team who will directly measure how the parasite grows and is killed by the immune system. A better understanding of parasite growth and control will help develop better drugs therapy and vaccination for this important infection.
Development of a safe and immunogenic anti-chlamydia vaccine for the koala. Many koala populations are under threat of extinction from chlamydial disease.The project will develop a chlamydial vaccine and conduct trials in several wild koala populations for safety and effectiveness.