Characterisation Of Cell-mediated Immune Responses In Burkholderia Pseudomallei Infection
Funder
National Health and Medical Research Council
Funding Amount
$239,250.00
Summary
The bacterium Burkholderia pseudomallei, causes a life threatening condition known as melioidosis. Melioidosis is emerging as an important infectious disease in tropical regions of Australia and South East Asia. Death rates following acute disease are extremely high. Despite the importance of B. pseudomallei in tropical public health, very little is known regarding how the body's defence mechanisms prevent the spread of infection. The wide distribution of melioidosis in tropical Australia and ot ....The bacterium Burkholderia pseudomallei, causes a life threatening condition known as melioidosis. Melioidosis is emerging as an important infectious disease in tropical regions of Australia and South East Asia. Death rates following acute disease are extremely high. Despite the importance of B. pseudomallei in tropical public health, very little is known regarding how the body's defence mechanisms prevent the spread of infection. The wide distribution of melioidosis in tropical Australia and other parts of the world, and the lack of basic scientific information regarding this disease, has prompted this study. The bacterium lives within the body's cells and therefore does not respond well to standard antibiotic treatment. Although some of the basic immune mechanisms have been identified, how protection to the organism develops remains unclear. In this project we will investigate the effect of B. pseudomallei on immune cells or lymphocytes. This study will determine the patients' immune responses to the bacteria causing the disease. Our research team has already successfully carried out work on several different aspects of melioidosis. The characterisation of the basic immune function determined in the proposed study will provide the scientific basis for improvement in treatment and the development of possible preventive strategies against melioidosis.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.
Interaction Of Anti-viral IDO And NOS2 In Vivo In A Novel Murine STD Model.
Funder
National Health and Medical Research Council
Funding Amount
$573,629.00
Summary
Sexually transmitted viral diseases (STD) are increasing globally, but we know little of how virus is controlled early in infection. We have shown for the first time in vivo, in our STD model, that during an antiviral immune response, soluble factors turn on an enzyme, indoleamine 2,3-dioxygenase (IDO), to break down and deplete the amino acid, L-tryptophan, starving virus to reduce growth early in STDs. Our project will further define the action and control of IDO in STD.
Immunopathological Role Of Monocyte-macrophages In Flavivirus Encephalitis.
Funder
National Health and Medical Research Council
Funding Amount
$445,011.00
Summary
Viral encephalitis is a life-threatening infection of the brain for which there are no reliable treatments. White cells called monocytes enter the brain from the blood and although important in the immune response that destroys the virus, can also damage the brain. Our work focuses on determining how monocytes migrate into the brain in viral infection, what functions they have once inside the brain, and how to exclude a certain types of monocytes that we have found to be particularly damaging.
Enhancement Of Mucosal Immunity And CTL Avidity Against HIV-1
Funder
National Health and Medical Research Council
Funding Amount
$553,070.00
Summary
Production of strong antiviral immunity at the local mucosa (genito-rectal track) is essential for protection against HIV-AIDS. We believe that expression of small hormone-like molecules known as Th2 cytokines IL-4-IL-13 negatively influence the generation of protective immunity against HIV. Thus we aim to counteract these effects by co-expressing proteins known as chemokines together with vaccine antigens to improve the quality of mucosal vaccine immunity.
Understanding And Controlling Viral Escape In Influenza
Funder
National Health and Medical Research Council
Funding Amount
$433,156.00
Summary
Introduction of a new influenza strain into human circulation leads to a rapid global spread of the virus (e.g. H1N1-09 pandemic) due to minimal antibody immunity. Established T-cell immunity towards conserved viral regions promotes rapid recovery. However, the protective immunity exerts pressure on influenza, leading to "escape" mutations. We will unravel how the viral mutants emerge and propose strategies for T cell-based protective immunity and vaccine design against influenza.