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.
Host-virus Interactions That Define The Outcome Of Anti-viral T Cell Responses: Relevance To Viral Persistence
Funder
National Health and Medical Research Council
Funding Amount
$487,500.00
Summary
Infection with human cytomegalovirus (hCMV) is normally resolved without symptomatic evidence of infection. However, severe hCMV disease can occur in immunocompromised patients in which the manifestations of disease include chorioretinitis, interstitial pneumonia and hepatitis. In immunologically immature children, congenital infection results in cytomegalic inclusion disease (CID). CID in infants causes severe neurological sequelae resulting in mental retardation, deafness and blindness. Vaccin ....Infection with human cytomegalovirus (hCMV) is normally resolved without symptomatic evidence of infection. However, severe hCMV disease can occur in immunocompromised patients in which the manifestations of disease include chorioretinitis, interstitial pneumonia and hepatitis. In immunologically immature children, congenital infection results in cytomegalic inclusion disease (CID). CID in infants causes severe neurological sequelae resulting in mental retardation, deafness and blindness. Vaccination against hCMV induced cytomegalic inclusion disease has been designated Level I (most favourable) due to the prediction that it could save lives and prevent life-long disability. Given the essential nature of CD8 T cells in CMV control and the high prevalence of CMV in society, it will be crucial to develop a vaccine capable of eliciting an efficacious T cell response which develops lasting memory. We hypothesise that mCMV has evolved mechanisms for generating an appropriate T cell response involved in viral control and the establishment of a persistent infection. The central aim of the work in the current proposal is to investigate the cellular and viral mechanisms involved in the generation of cytomegalovirus specific T cells. The proposed studies will improve our understanding of the generation of anti-viral T cell responses and hence will be relevent to further our understanding of the role of T cells in human infection. More importantly the results will provide critical insights into the rational design of suitable antiviral drugs and vaccines.Read moreRead less
Professor Godfrey is an immunologist with a long standing history as a pioneer in the study of a specialised type of white blood cell, known as NKT cells. NKT cells are activated in response to lipid-based molecules that are thought to alert the immune system, via NKT cell activation, to the presence of infectious agents or other abnormalities. A better understanding of how NKT cells function will provide new approaches to battling a broad range of diseases where these cells are implicated, incl ....Professor Godfrey is an immunologist with a long standing history as a pioneer in the study of a specialised type of white blood cell, known as NKT cells. NKT cells are activated in response to lipid-based molecules that are thought to alert the immune system, via NKT cell activation, to the presence of infectious agents or other abnormalities. A better understanding of how NKT cells function will provide new approaches to battling a broad range of diseases where these cells are implicated, including cancer, autoimmunity, allergy and infection.Read moreRead less
I am an immunologist, working to understand the function of NKT cells, and how these cells can be manipulated as a means of immune therapy for a range of immunologically related diseases.
Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.
Understanding And Modulating The Human Immune System
Funder
National Health and Medical Research Council
Funding Amount
$470,144.00
Summary
T cells are the sentinels of our immune system continually scanning our tissue for abnormalities and eliminating threats in many forms. They are our second and last line of defence against microorganisms and cancer. Unfortunately, T cells can also cause harm through accidental crossreactvity or overzealous function. My work is directed at understanding how T cells work and how they can be controlled using drugs and gene therapy. If we can ‘tune’ the power of this master immune lineage we can unl
Defining The Requirements For Effective Immune Responses
Funder
National Health and Medical Research Council
Funding Amount
$714,745.00
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
Understanding The Role Of Innate Immune Cells In Regulating Gut-associated Lymphoid Tissues At Steady-state And In Disease
Funder
National Health and Medical Research Council
Funding Amount
$365,126.00
Summary
The intestine is the largest surface area forming a protective barrier between the external environment and the body. It represents the first line of defence against invading pathogens. The immune system of the intestine is critical to protect this tissue -any breakdown leads to profound and progressive inflammatory disease of the gut such as chronic inflammatory bowel disease. Our work will determine the critical the mechanisms that protect the gut opening the door to targeted intestinal immuno ....The intestine is the largest surface area forming a protective barrier between the external environment and the body. It represents the first line of defence against invading pathogens. The immune system of the intestine is critical to protect this tissue -any breakdown leads to profound and progressive inflammatory disease of the gut such as chronic inflammatory bowel disease. Our work will determine the critical the mechanisms that protect the gut opening the door to targeted intestinal immunotherapeutics.Read moreRead less
Extracellular Cues Compete With TCR Signalling To Alter Lymphocyte Polarity, Fate And Function.
Funder
National Health and Medical Research Council
Funding Amount
$509,954.00
Summary
Following an infection, our immune system generates a large and diverse repertoire of cells required to mount and regulate an appropriate immune response. The signals that control the different types of immune cells that develop, and how bacteria and viruses influence immune cell development, are not fully understood. This project will investigate the regulation of immune cell development, and how competing signals from infectious agents influence this process.