UNDERSTANDING HEPATITIS C VIRUS-SPECIFIC T CELL TOLERANCE
Funder
National Health and Medical Research Council
Funding Amount
$429,710.00
Summary
Most individuals who are infected with hepatitis C virus (HCV) develop a persistent infection that is lifelong and are at risk of developing serious liver disease, including liver cancer. The evidence suggests that an inadequate immune response is responsible for the inability of the patient to resolve the infection, but it is not clear which stage of the immunological cascade might be targeted. In this project, we will test the hypothesis that HCV antigen induce supressor T cells This will have ....Most individuals who are infected with hepatitis C virus (HCV) develop a persistent infection that is lifelong and are at risk of developing serious liver disease, including liver cancer. The evidence suggests that an inadequate immune response is responsible for the inability of the patient to resolve the infection, but it is not clear which stage of the immunological cascade might be targeted. In this project, we will test the hypothesis that HCV antigen induce supressor T cells This will have the effect of inhibiting the immune response and result in the outcome that we currently recognise as persistent HCV infection.Read moreRead less
Deciphering IFN Type III, TGF?, IL-10 And Adenosine Pathways In Natural Killer Cells: Enhancing The Innate Anti-metastatic Response Against Breast Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
This project will determine whether one or more factors produced in tumours (eg. cell hormones and metabolites) inhibits NK cells from controlling breast cancer spread using the best available mouse tumour models. We will use genetics to specifically delete response to these factors by NK cells. It is a completely novel approach and this information will allow for the more rational design of cancer treatments following surgery and local radiotherapy and/or chemotherapy.
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
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
Induction Of Natural T-Regulatory Cells By Thymic Dendritic Cell Populations
Funder
National Health and Medical Research Council
Funding Amount
$413,775.00
Summary
In this study, we will determine the roles of the antigen presenting cells, namely denderitic cells, in the induction of T-regulatory cell (T-reg) developemnt in the thymus. T-reg cells play important roles in controlling the development of autoimmunity. This study will help to understand the possible causes of autoimmune diseases and to develop new treatments for these diseases.
Control Of Haematological Cancers By Natural Killer Cells
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Haematological cancers affect the blood and lymphoid organs and are generally lethal. Therapies targeting the anti-tumour capacities of the immune system have shown promising results in cancer patients. Natural Killer (NK) cells are key players of anti-tumour immune responses. This project will provide a better understanding of NK cell-mediated control of haematological malignancies that will be directly applied to the design of new curative therapies for blood cancer patients.
Understanding Immunosuppressive Pathways In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$419,178.00
Summary
Cancer-induced immune suppression is a major obstacle to the effective treatment of many cancers. Suppression can be mediated by cells of the immune system, or cancers themselves. My project aims to investigate 3 suppressive pathways and determine their hierarchy in different mouse models of cancer using mouse genetics and antibody-based treatment approaches. Understanding these processes ongoing in the cancer environment will allow the design of more effective cancer therapies.