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Multifunctional biodegradable nanoparticles for enhanced DNA vaccine delivery. DNA vaccine, which shows better immunological and economic merits than conventional vaccines, suffers clinical failure due to the difficulty of delivering intact DNA molecules to relevant cells. This project seeks to develop smart polymer nanospheres to protect the DNA molecules from premature degradation in order to improve its efficacy.
A Dendritic Cell Subset Targeting Approach For Generating Humoral Immunity
Funder
National Health and Medical Research Council
Funding Amount
$678,492.00
Summary
Potent vaccination might be achieved by using monoclonal antibodies as magic bullets to target vaccines to special cells in the body. We show that targeting these special cells by using monoclonal antibodies that recognise Clec9A is effective, perhaps because it brings several different immune cells together so that they orchestrate very efficient immune responses. This application investigates how targeting Clec9A allows strong vaccination so that we can apply this to new generation vaccines.
Mechanisms Of B Cell Immunodominance To Influenza Virus
Funder
National Health and Medical Research Council
Funding Amount
$617,611.00
Summary
Current influenza vaccines elicit poor protection against viruses undergoing rapid change or emerging from animal reservoirs. We will define the basis for why highly conserved sites of virus vulnerability, such as the hemagglutinin "stem" domain, are poorly targeted by current vaccines and will assess novel hemagglutinin stem-based vaccines in macaque models of human influenza. Our results will guide the rational design of next-generation vaccines for influenza.
Understanding immune mechanisms induced by pulmonary vaccination. This project aims to better understand the mechanisms of immune induction of a novel lung vaccination strategy. The ability to deliver vaccines that induce potent lung and body wide immune responses in a safe and efficient manner has wide implications for both human and animal health. Ultimately, the vaccine will be delivered to the lung as stable dry powders in an attempt to negate the need for a transport cold chain and therefor ....Understanding immune mechanisms induced by pulmonary vaccination. This project aims to better understand the mechanisms of immune induction of a novel lung vaccination strategy. The ability to deliver vaccines that induce potent lung and body wide immune responses in a safe and efficient manner has wide implications for both human and animal health. Ultimately, the vaccine will be delivered to the lung as stable dry powders in an attempt to negate the need for a transport cold chain and therefore facilitate the distribution of the vaccines to remote areas. The project will not only benefit the Australian biotechnology industry but also the community at large and in particular those in remote areas without access to modern medical facilities.Read moreRead less
microRNAs and the control of T lymphocyte differentiation, function and malignant transformation. The molecular mechanism of the immune system is not completely understood. This project will investigate how transcription factors and microRNAs, two major types of regulatory molecules work together to control immune responses. The results from this research will assist in the design of better vaccination strategies and treat certain lymphomas.
Extending Life After Lung Transplantation – Defining The Structural And Immunological Drivers Of Chronic Lung Allograft Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$739,190.00
Summary
Lung Transplantation (LTx) saves life. However, chronic rejection limits survival after LTx compared to other solid organ transplants. Chronic rejection develops when the LTx recipient produces antibodies against the donor lung. With a team of global leaders in the field we will dissect the antibody response to LTx. By better understanding the immune drivers of antibody-mediated rejection, we aim to reduce the incidence of chronic rejection thereby improving survival after LTx.
Sytemic And Mucosal Functional Antibodies In Protection Against HIV
Funder
National Health and Medical Research Council
Funding Amount
$559,501.00
Summary
Only one human HIV vaccine has shown any level of protective efficacy. However the mechanisms behind how this vaccine was protective are still not fully understood. Additionally, HIV is primarily transmitted through mucosal sites, however very little is know about vaccine immune responses at these sites. Thus this proposal aims to further define the mechanisms of antibody protection against HIV at both systemic and mucosal locations, in order to guide future HIV vaccine design efforts.
Importance Of Functional Antibodies Against Infectious Diseases
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
Antibodies are highly functional proteins capable of recognizing infectious disease pathogens and instructing surrounding immune cells to attack them. This project aims to identify specific antibody targets on HIV and Mycobacterium Tuberculosis associated with protection/control of disease and to understand the mechanisms behind the most functional antibodies. Ultimately, these studies will guide the development of future vaccines and therapies against these deadly pathogens.