Cytolytic Mechanisms Required For Virus Elimination.
Funder
National Health and Medical Research Council
Funding Amount
$698,567.00
Summary
Viruses provoke devastating disease. The immune system kills cells that are infected with viruses. To do this, immune cells release granules that are packaged with different killer molecules. It is unknown which killer molecules participate over the course of an immune response to virus. Here, we will investigate this process for cells that are infected with influenza A virus and herpes simplex virus. This study will allow the design of strategies to limit widespread damage inflicted by viruses.
Investigating The Mechanism And Consequences Of Cytotoxic Lymphocyte Detachment
Funder
National Health and Medical Research Council
Funding Amount
$419,180.00
Summary
Killer cells are white blood cells that destroy cancerous cells. To move to their next target they must quickly detach from a dying target. Failure of detachment results in excessive inflammation and tumour escape. This project will discover the detachment signals required to ‘release’ a locked-on killer cell. This will lead to a deeper understanding of immune pathology and new ways of treating cancer.
Activated Protein C Suppresses The Abnormal Immune Response In Rheumatoid Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$380,558.00
Summary
This project will determine whether activated protein C (APC) reduces the severity of rheumatoid arthritis (RA) by altering the abnormal response of a type of white blood cells known as the T cells. Experiments will utilise T cells isolated from patients with RA, normal controls and an animal model of RA, to examine a newly discovered immune pathway now thought to play a major role in causing RA. The results will help clarify whether and how APC prevents joint destruction in RA
NK Cell Subsets And Their Role In Immune Responses
Funder
National Health and Medical Research Council
Funding Amount
$173,522.00
Summary
Natural killer (NK) cells are 5-10% of white blood cells of the immune system that represent one of our first lines of defense against microbes and cancer development. Recent evidence strongly suggests that NK cells are major cells of importance in the immune system, not only in acting as killers of cancer cells or virus-infected cells, but also in regulating the adaptive memory components of the immune response. Despite our greater knowledge of NK cell biology, we still know very little about t ....Natural killer (NK) cells are 5-10% of white blood cells of the immune system that represent one of our first lines of defense against microbes and cancer development. Recent evidence strongly suggests that NK cells are major cells of importance in the immune system, not only in acting as killers of cancer cells or virus-infected cells, but also in regulating the adaptive memory components of the immune response. Despite our greater knowledge of NK cell biology, we still know very little about the diversity that exists within the NK cell population. The development and maturation of NK cells requires far greater study and this proposal aims to examine this question in the best experimental model, the mouse. We have recently made an important breakthrough concerning the distinct functional behavior of newly discovered NK cell subsets. We now aim to develop a more integrated model of NK cell development, such that vaccines and adjuvants designed to prevent and ameliorate lethal and chronic infectious diseases and cancer can be more rationally designed.Read moreRead less
T Cells: Their Impact On HIV Evolution And Their Regulation In Influenza
Funder
National Health and Medical Research Council
Funding Amount
$338,484.00
Summary
The T cells of our immune system are critical defenders against viral infection. It is vitally important to understand what stimulates these cells so we can better target them against globally important viruses, such as HIV and influenza - infections that kill millions per year. We need to understand what genes in the T cell turns them into effective killers and which part of these viruses elicits the most effective T cell response. We can use this knowledge for vaccine development.
Evaluation Of Immune Correlates For Virus-specific CD8+ T Cells Following Prime-boost Vaccination
Funder
National Health and Medical Research Council
Funding Amount
$397,889.00
Summary
This project will use cutting-edge technology to evaluate the quality of virus-specific white blood cells generated following vaccination. Clinically relevant vaccination strategies will be analysed in a well characterised mouse model of infection to produce correlates associated with protective vaccine efficacy, particularly in an immunosupressed setting. This will lead to more focused research and ultimately the development of prophylactic and therapeutic HIV vaccines.
This Program Grant has three investigators, Professor Denis Moss, Dr Rajiv Khanna and Dr Scott Burrows, each of whom has collaborated on two previous Program Grants. The group is well known in the area of herpesvirus immunology and have published numerous scientific papers in leading medical journals. This program grant focuses on two human herpesviruses. The first is called Epstein-Barr virus which causes glandular fever and is associated with arange of human cancers. The second virus is human ....This Program Grant has three investigators, Professor Denis Moss, Dr Rajiv Khanna and Dr Scott Burrows, each of whom has collaborated on two previous Program Grants. The group is well known in the area of herpesvirus immunology and have published numerous scientific papers in leading medical journals. This program grant focuses on two human herpesviruses. The first is called Epstein-Barr virus which causes glandular fever and is associated with arange of human cancers. The second virus is human cytomegalovirus which can cause birth defects and problems in transplant patients. In this program we are investigating how the body�s immune system controls these viruses to exploit this information to develop new treatments.Read moreRead less
Comparative Effectiveness Of Vaccine-induced SIV-specific CD8 T Cells
Funder
National Health and Medical Research Council
Funding Amount
$607,797.00
Summary
A HIV vaccine remains elusive. Although killer T cell immunity can provide partial protection from HIV disease, we don't know the best type of killer T cells to induce by vaccination. This project compares multiple HIV vaccine strategies in macaques. We will carefully study the quality of killer T cell immunity induced using novel and cutting-edge assays. We will identify the requirements for effective killer T cell immunity to HIV.