The Role Of 14-3-3 Proteins In Regulating The Innate Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$517,989.00
Summary
The immune response is the body's defense system. It's malfunction leads to many diseases such as immune deficiency, asthma and cancer. Thus, it is important to find genes controlling immunity. Significantly, mammals have amazing similarities with flies, in terms of genes controlling immunity. We have found a new regulator of fly immunity and will define how this gene functions in the immune system. This project will identify potential points of intervention for treating immune system disorders.
Host Resistance And Protection Against Oral Candidasis
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
Candida albicans is an important opportunistic pathogen, that is widely represented in general medical and dental practice, as well as in the hospital environment. Clinical observations indicate that defects in innate immunity predispose patients to disseminated infection, whereas a weakened cell-mediated immune response is commonly associated with chronic oral infections. Animal models of both chronic and acute oral candidiasis have been developed and characterised by the applicants, and these ....Candida albicans is an important opportunistic pathogen, that is widely represented in general medical and dental practice, as well as in the hospital environment. Clinical observations indicate that defects in innate immunity predispose patients to disseminated infection, whereas a weakened cell-mediated immune response is commonly associated with chronic oral infections. Animal models of both chronic and acute oral candidiasis have been developed and characterised by the applicants, and these have clearly implicated T cells in the process of recovery from primary infection. The models will now be used to analyse the effector mechanisms that lead to clearance of the yeast from the oral cavity, with a particular focus on the role of phagocytic cells, and their interaction with T cells. The acute model will be used to identify immunological variables that can act as markers of protection, and the effectiveness of therapeutic manipulations will be evaluated in the chronic model, with the ultimate aim of developing a protective vaccine for human infections.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.
Characterisation Of An Antigen Presenting Cell Unique To Spleen
Funder
National Health and Medical Research Council
Funding Amount
$420,606.00
Summary
The body depends on a range of defence mechanisms to remove invaders that enter by various routes. Antigen presenting cells are central to immunity in that they engulf and destroy dead cells and pathogens and present pieces of those pathogens or 'antigens' to white blood cells called T and B lymphocytes. These cells then start to fight the infection or disease. A new type of antigen presenting cell will be investigated for its particular ability to arrest blood-borne pathogens and disease.
Mechanisms Of Dendritic Cell-induced T-cell Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$314,773.00
Summary
Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic suceptibility to autoimmune disease, the mechanisms fail and the body's immune sytem attacks normal tissues or organs. We have developed a new approach to using the cells which train the immune system to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. Thes ....Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic suceptibility to autoimmune disease, the mechanisms fail and the body's immune sytem attacks normal tissues or organs. We have developed a new approach to using the cells which train the immune system to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. These cells (dendritic cells) are genetically modified to express the molecular targets of the autoimmune response. This in turn switches off the response to these targets. In this project we will explore how these cells can be used to turn off cells of the immune system and if cells of the immune system in turn control the dendritic cell's ability to do this.Read moreRead less
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
Immune Regulation, Cellular Trafficking And Chemokine Receptors In Intestinal Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$204,750.00
Summary
The intestine is exposed to a vast array of foreign substances, or antigens, from food to the abundant bacteria that populate the gut. The gut immune system has developed elaborate and poorly understood mechanisms for preventing inflammation in response to these antigens. A breakdown in these control mechanisms may be partly responsible for the chronic intestinal diseases known as inflammatory bowel diseases, which cause abdominal pain, diarrhoea and bleeding. A recently described immune cell ty ....The intestine is exposed to a vast array of foreign substances, or antigens, from food to the abundant bacteria that populate the gut. The gut immune system has developed elaborate and poorly understood mechanisms for preventing inflammation in response to these antigens. A breakdown in these control mechanisms may be partly responsible for the chronic intestinal diseases known as inflammatory bowel diseases, which cause abdominal pain, diarrhoea and bleeding. A recently described immune cell type, known as a regulatory T cell (T reg), is a powerful candidate cell as a master controller of intestinal inflammation. We know that T cells move to various sites in the body under the influence of hormone-like proteins known as chemokines, but the existence of T reg cells in the intestine, their characteristics, their behaviour and their specific response to chemokines, are all unknown. These studies aim to examine the presence and nature of T reg cells in human and mouse intestine, in both health and inflammation, and to explore how these cells migrate into the gut under the influence of chemokines. This knowledge will help in our understanding of intestinal immunity and endogenous regulation of immune responses, and will provide new targets for treatment of inflammatory bowel disease, and potentially other inflammatory diseases.Read moreRead less
Bacterial Outer Membrane Vesicles As Immunomodulatory Agents In Helicobacter Pylori Infection
Funder
National Health and Medical Research Council
Funding Amount
$306,510.00
Summary
Chronic inflammation of the stomach is a hallmark of Helicobacter pylori infection, and is a precursor to peptic ulcer disease and cancer. Like many other bacteria, H. pylori sheds spherical blebs from its surface. These blebs bind to stomach cells in vitro and have been found in stomach biopsies of H. pylori-infected subjects. The aims of the work are to investigate the mechanisms whereby H. pylori blebs enter and disseminate within host cells, and how this may contribute to inflammation.