Protective memory T cell immune responses defend our body against pathogens by the rapid induction of killer T cells. This protects us from severe or perhaps even fatal disease. Our work will provide insights to how the body makes these potent ‘footsoldiers’. This work will have important implications for identifying how these immune cells can be manipulated to prevent and treat pathogenic and autoimmune disease and for optimising approaches to vaccination.
Transcriptional Regulation Of Specialized Subsets Of Dendritic Cells In Control Of Infection
Funder
National Health and Medical Research Council
Funding Amount
$616,912.00
Summary
Immune protection against viruses and bacteria depends on specialized cells called dendritic cells that display components of the invading organisms on their surface. There are multiple different types of dendritic cell and each population plays a specialized role in defending the body against infection. Our work will provide the framework for directly targeting these cells for novel vaccines to re-program the immune system for clinical conditions such as cancer, allergy and autoimmunity.
Host Targeted Adjunctive Therapies To Boost Antimalarial Immunity
Funder
National Health and Medical Research Council
Funding Amount
$2,060,189.00
Summary
Malaria caused 200 million cases and 400000 deaths in 2018. One problem in developing new control strategies for malaria is that following a malaria infection, individuals develop disruptive immune responses that block vaccines. Our project investigates the ability of a repurposed drug to prevent the development of disruptive immune responses during malaria in humans. Results of our studies will inform the development of new malaria control tools.