VITAL: Vaccine Immunomodulation Throughout The Aging Lifespan
Funder
National Health and Medical Research Council
Funding Amount
$795,117.00
Summary
The elderly respond less well to vaccines than their younger counterparts. Flu is particularly dangerous to the elderly. In this proposal we will determine the likely immune mechanism undelying this difference, as well as specifically address the urgent issue of whether prior injection with a whooping cough vaccine makes Flu vaccines less likely to be effective.
Novel Posttranscriptional Pathways The Control Tfh Cell Numbers
Funder
National Health and Medical Research Council
Funding Amount
$647,539.00
Summary
T follicular helper (Tfh) cells are essential for effective antibody responses against infection. Limiting Tfh cells is crucial for selecting the "fittest" B cells and the success of vaccines. Tfh cell accumulation causes autoimmuity and is associated with inadequate B cell responses in HIV infection. We have recently discovered two novel pathways that control Tfh cells. We speculate they regulate different RNAs that influence Tfh homeostasis and aim to elucidate their mechanism of action.
This application seeks information on the factors controlling T cell survival, tolerance and responsiveness to foreign antigens and tumour antigens. Particular attention will be directed to determining how T cells are kept alive through contact with self ligands and cytokines while preserving self tolerance and how anti-tumour responses can improved without augmenting the function of T regulatory cells.
Identifying T Cell Correlates Of Protective Immunity To Malaria In Childhood
Funder
National Health and Medical Research Council
Funding Amount
$396,026.00
Summary
Malaria claims nearly one million lives each year, mostly children. Although those living in endemic regions can acquire natural immunity, it develops slowly and isn`t completely protective. This project studies the impact of different levels of malaria exposure and age on the development of a protective immune response in children. By understanding the effect of high malaria exposure in the development of immunity it is hoped that new avenues for drug development may be identified.
This application proposes to study in detail the main target cell for HIV infection, namely CCR5+ CD4 T lymphocytes. After 30 years of the pandemic, fundamental knowledge of these cells, such as locations in the body, differentiation from other lymphocytes, and survival, is still lacking. These attributes determine whether or not they will be infected by HIV, whether this can be prevented by vaccines or CCR5 blocking drugs, and whether their long-term survival results in an inability to eradicat ....This application proposes to study in detail the main target cell for HIV infection, namely CCR5+ CD4 T lymphocytes. After 30 years of the pandemic, fundamental knowledge of these cells, such as locations in the body, differentiation from other lymphocytes, and survival, is still lacking. These attributes determine whether or not they will be infected by HIV, whether this can be prevented by vaccines or CCR5 blocking drugs, and whether their long-term survival results in an inability to eradicate HIV.Read moreRead less
Cancer immunotherapy by “checkpoint blockade” boosts the immune response and leads to tumour rejection in some patients. To improve immunotherapy, information will be sought on the capacity of membrane vesicles prepared from dendritic cells (DC) to stimulate immune cells (T cells) in mice and elicit tumour rejection. Experiments are proposed to trace the fate of the vesicles after injection and improve tumour rejection by combination with checkpoint blockade and addition of cytokines.
Cytotoxic T Lymphocyte Synapse Formation And Serial Killing: When Breaking Up Is Hard To Do.
Funder
National Health and Medical Research Council
Funding Amount
$626,688.00
Summary
Killer T cells are a specialised group of immune cells, which destroy cancerous and infected cells. When killer T cells find a target, they attach and secrete toxic molecules. It then detaches from the dying target, so that it may go on to kill other cells. If it doesn’t detach properly, it remains bound to the target cell and results in an improper immune response. This proposal will investigate how the killer cell detaches, which is essential for an efficient immune response.