The Phenotype Of Protective Cytotoxic T Cell Responses During Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$841,114.00
Summary
T cell responses are important to establish protection against pathogens and some cancer via generation of memory cells that can be maintained long term and defeat promptly re-infections. This proposal aim at determining important factors that drive the success of immunological memory by employing single cell technologies and unique longitudinal samples from subjects infected with hepatitis C virus. The finding of this study will inform current vaccine research and immunotherapies.
In Vivo Imaging Of Virus-specific T Cell Responses In The Skin
Funder
National Health and Medical Research Council
Funding Amount
$332,258.00
Summary
Effective vaccination against many viral infections such as Herpes Simplex Virus (HSV) may be achieved by directing the cells of the immune system to specific sites in the body where they can lie in wait against the disease. To direct the immune system in this way, we must first understand how immune cells orchestrate themselves in tissues. This project will utilise advanced imaging techniques to study immune cells in real time to understand how they protect against viral infections in the skin.
The body’s surfaces are continually under threat from microbes that may cause debilitating disease. Our ability to control such infections relies on our immune system, consisting of different cell types with specialised functions. We will study frontline immune cells that populate barrier tissues such as skin and mucosa where they provide enhanced local protection by responding vigorously on infection. Our studies will guide the development of future therapies harnessing our immune system.
STAT3-mediated Regulation Of Human Antibody Responses
Funder
National Health and Medical Research Council
Funding Amount
$580,249.00
Summary
The immune system rapidly responds to infectious pathogens to eradicate such microbes and limit the damage they can inflict upon the host. Individuals with primary immunodeficiencies have defects in the development and/or function of the cells of their immune system and are more susceptible to infectious diseases. This study will investigate such individuals to identify functions for specific genes and immune cells in order to understand the requirements for generating effective immune responses ....The immune system rapidly responds to infectious pathogens to eradicate such microbes and limit the damage they can inflict upon the host. Individuals with primary immunodeficiencies have defects in the development and/or function of the cells of their immune system and are more susceptible to infectious diseases. This study will investigate such individuals to identify functions for specific genes and immune cells in order to understand the requirements for generating effective immune responses.Read moreRead less
Determining Regulators Of ILC3 In Mucosal Barrier Function And Immune Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$705,209.00
Summary
Innate lymphoid cells (ILCs) are specialized cells that defend the body against invading microorganisms at the body’s surfaces, mediate pathogen clearance and tissue repair but may also drive inflammatory conditions such as allergic asthma and inflammatory bowel disease. We will investigate the molecular switches that regulate this novel cell type and potentially uncover novel molecules or pathways for therapeutic targets.
The Role Of Cytokines In Tumor-induced Immunosuppression
Funder
National Health and Medical Research Council
Funding Amount
$754,473.00
Summary
Cancer-induced immune suppression is a major obstacle to the effective treatment of many cancers. We have shown that the cytokine IL-23, plays an important role in cancer initiation, growth and development. My project aims to characterize the cells that produce IL-23 in the cancer microenvironment and define how it suppresses cells of the immune system. A greater understanding of this cytokine’s mechanism of action will enable the rational improvement of treatments for patients with cancer
How are memories stored in the brain? We know much about the brain regions involved in memory storage but we know little or nothing about how individual memories are represented and stored within those brain areas. The purpose of this project is to label and manipulate the specific subsets of brain cells that store individual memories. We will label memory-bearing cells in multiple brain regions and then ask how the connections between those cells encode learned information in the brain.
Deciphering The Role Of Intron Retention In Monocyte Differentiation And Function
Funder
National Health and Medical Research Council
Funding Amount
$511,114.00
Summary
In 2013, we made a breakthrough discovery that certain parts of genes, previously considered “Junk DNA”, are actually carrying signals to control the amount of proteins produced in cells. We now wish to understand the roles of these signals in the development of a key immune cell called monocyte. Monocytes are important to fight infection and inflammation in diseases such as diabetes and cancer. We hope to advance our knowledge on how we can manipulate these cells for therapeutic gain.
Colorectal cancer is a leading cause of cancer-related deaths worldwide. Chronic inflammation is recognized as a predisposing factor for the development of colon cancer, but the molecular mechanisms linking inflammation and tumourigenesis have remained elusive. Our work will dissect the cellular and molecular circuitry that leads to tumourigenesis and investigate interventions aimed to significantly slow or prevent tumour formation. This work will have significant implications for treatments of ....Colorectal cancer is a leading cause of cancer-related deaths worldwide. Chronic inflammation is recognized as a predisposing factor for the development of colon cancer, but the molecular mechanisms linking inflammation and tumourigenesis have remained elusive. Our work will dissect the cellular and molecular circuitry that leads to tumourigenesis and investigate interventions aimed to significantly slow or prevent tumour formation. This work will have significant implications for treatments of intestinal inflammation and colon cancer.Read moreRead less
This project will assess new ways to protect against HIV infection and treat HIV infection using potent antibody therapies. This will help us understand how the immune system can control HIV. We will generate antibody fragments that can be produced relatively cheaply that, if successful, could lead to a viable antibody therapy for HIV.