Identifying Molecular Machinery In Dendritic Cells.
Funder
National Health and Medical Research Council
Funding Amount
$687,500.00
Summary
Vaccines invoke immune responses that will protect a vaccinated host if they encounter infection. Vaccines can also be deployed to fight cancer. 'Dendritic cells' are the key immune cell responsible for vaccine immunity. While dendritic cells are pivotal to initiating vaccination, little is known about their internal machinery. This research proposal will identify new machinery for dendritic cell vaccine immunity that will serve as therapeutic targets to boost vaccination.
Dendritic cells are essential components of our immune systems. They are located throughout our body and provide the first line of defence against invading microbes. Dendritic cells sense the invader and send out signals to recruit our immune cells to the site of infection. Our research aims to understand how our dendritic cell network is set up and how it functions to promote our immune health.
Dendritic Cells Govern The Balance Between Immunity And Homeostasis To Inhaled Antigen
Funder
National Health and Medical Research Council
Funding Amount
$816,131.00
Summary
The development of better intranasal vaccines hinges on the improved understanding of how the immune response is initiated following vaccine delivery into the upper airways. In this project we will provide fundamental understanding of how immune responses to inhaled antigens are regulated; this considerable conceptual advance will lay the foundation for which new intranasally delivered immunotherapies will ultimately emerge.
Perinatal Microbe-host Interactions Regulate Neonatal Dendritic Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$1,293,576.00
Summary
Acute lower respiratory tract infections (ALRI) are the leading cause of childhood mortality globally, and increase the risk of chronic lung diseases in later-life. Diverse communities of microorganisms - the microbiome - assemble in infancy and support immune development. In this study, we will explore the relationship between the microbiome and its metabolites, and the expression of an important hormone that regulates the development of the immune system to confer protection against ALRI.