Investigating Polarity Proteins In Thymocytes- A Potential Role In Asymmetric Cell Division?
Funder
National Health and Medical Research Council
Funding Amount
$69,684.00
Summary
To protect us against infection, surveying immune cells will launch an attack against foreign cells by using complex signalling process to communicate with each other. A novel method in which immune cells differentiate to defend the body against infection has been recently discovered this year and this project will involve dissecting how this occurs. It will involve using state-of-the-art laser-based technologies, combined with studying immune events in cells and intact organs.
Molecular And Cellular Mechanisms Of Cytotoxic Lymphocyte Perforin
Funder
National Health and Medical Research Council
Funding Amount
$419,223.00
Summary
Cytotoxic lymphocytes are immune cells, which recognise and kill virus-infected or cancer cells. Perforin is essential for the activity of cytotoxic lymphocytes. The loss of perforin function results in an inherited immune deficiency, or may lead to the development of cancer. Despite a key role of perforin, its mechanism of action and the regulation of activity are unknown. I propose to elucidate these aspects of perforin biology. This is important for understanding immune regulation in humans.
Developmental Stages Of In Vivo And In Vitro-generated Dendritic Cell Subsets And Regulation Of T Cell Differentiation.
Funder
National Health and Medical Research Council
Funding Amount
$88,087.00
Summary
Dendritic cells (DC) represent a diverse family of white blood cells that form a sentinel network throughout the body involved in the detection and eradication of pathogens and cancer cells. DC can originate from different precursor cells in the bone marrow. It is therefore possible that different types of DC perform differing functions. For instance, DC not only initiate immune responses but are also able to silence them. However, the ability of DC to instruct and orchestrate the immune respons ....Dendritic cells (DC) represent a diverse family of white blood cells that form a sentinel network throughout the body involved in the detection and eradication of pathogens and cancer cells. DC can originate from different precursor cells in the bone marrow. It is therefore possible that different types of DC perform differing functions. For instance, DC not only initiate immune responses but are also able to silence them. However, the ability of DC to instruct and orchestrate the immune response may not only depend upon their origins but also on where they encounter pathogens or cancer cells and what other signals are associated with this encounter. Due to their specialized capacity to instruct the immune response (e.g. T cells, B cells and NK cells) of impending danger, DC are used experimentally to more efficiently deliver vaccines to the immune response so as to eradicate cancer or infectious disease. However, in order to successfully use DC to deliver vaccines, one must first understand how these cells normally behave in the body and what signals can alter their functional ability to orchestrate immune responses. We can generate DC outside the body from their precursors. We can also isolate DC from the circulation. This project seeks to identify how various physiologic stimuli differentially regulate the functional behaviour of DC subsets and how this then influences the DC's ability to instruct the developing T cell immune response. Furthermore, whether these signals are the same for DC generated outside the body with those isolated from the blood. Of particular interest is whether differing types of DC and differing stages of their maturity will differentially influence the T cell's ability to secrete immune response hormones and to recognize and kill cancer cells. The findings of this study have direct implications of how to best harness DC to effectively deliver vaccines and generate potent immune responses against cancer and infectious disease.Read moreRead less
THE BIOLOGY OF HUMAN DEC-205: A POTENTIAL ANTIGEN LOADING RECEPTOR FOR DENDRITIC CELLS
Funder
National Health and Medical Research Council
Funding Amount
$227,017.00
Summary
Dendritic Cells (DC) represent a unique subset of white blood cells which play a critical role in initiating the immune response. Foreign material from bacteria-viruses and potentially cancer cells are recognised by DC, taken inside, processed and presented with other signals to T and B Lymphocytes for a response. Several DC surface molecules may beinvolved in the recognition of foreign material. We have cloned human DEC-205, a molecule which is predicted to bind the sugar groups associated with ....Dendritic Cells (DC) represent a unique subset of white blood cells which play a critical role in initiating the immune response. Foreign material from bacteria-viruses and potentially cancer cells are recognised by DC, taken inside, processed and presented with other signals to T and B Lymphocytes for a response. Several DC surface molecules may beinvolved in the recognition of foreign material. We have cloned human DEC-205, a molecule which is predicted to bind the sugar groups associated with bacteria-viruses and to act as a foreign material recognition and loading receptor. This project seeks to synthesise components of DEC-205 to test the binding capacities of its different components to different sugars and other molecules. We will also establish its expression pattern and how this is regulated on different white blood cell types. It is also possible that DEC-205 transmits signals which activate the DC, and we will test for that possibility. Finally, we will attempt to exploit this knowledge for loading cancer target molecules into DC via DEC-205 to initiate a cancer vaccine response.Read moreRead less
Aldehyde-modified Antigens For The Immunotherapy Of Adenocarcinomas
Funder
National Health and Medical Research Council
Funding Amount
$284,250.00
Summary
The incidence of breast cancer in women is 1 in 8 and the frequency of other cancers are rising. Even with conventional approaches such as surgery, cytotoxic therapy, radiotherapy and combination therapy only a few cancers are treatable. The development of a cancer vaccine will greatly benefit humanity similar to childhood and adult vaccinations for preventing infectious disease. In this proposal we intend to chemically modify a synthetic protein called mucin 1 (MUC1) which is exprssed on cells ....The incidence of breast cancer in women is 1 in 8 and the frequency of other cancers are rising. Even with conventional approaches such as surgery, cytotoxic therapy, radiotherapy and combination therapy only a few cancers are treatable. The development of a cancer vaccine will greatly benefit humanity similar to childhood and adult vaccinations for preventing infectious disease. In this proposal we intend to chemically modify a synthetic protein called mucin 1 (MUC1) which is exprssed on cells in breast cancer to make it more immunogenic - that is make it look more like a foreign protein so that the immune cells can make antibodies or killer cells that recognise it. These activated cells can now migrate to the tumour sites and kill the invading tumour. In order to do this we are going to introduce mannose, a particular sugar that can bind to important white blood cells and an aldehyde group that can activate immune cells. We will test the effectiveness of the modified proteins in mice to see if they can generate an good immune. If this is satisfactory then we will see if mice are vaccinated with these modified proteins can reject implanted mouse or human tumours. If these experiments are successful further work can be done with human cells and later clinical trials. Any methods developed here will be applicable to other cancers and also infectious diseases.Read moreRead less
Perforin Trafficking And Activation In Killer Lymphocytes
Funder
National Health and Medical Research Council
Funding Amount
$292,639.00
Summary
Perforin (PRF) is a protein essential for the function of cytotoxic lymphocytes during an immune response in humans. Humans deficient in PRF are severely immunosuppressed and fall critically ill if they contract a viral infection. The partial loss of PRF function can also predispose an individual to cancer. We aim to investigate the functional and biochemical properties of PRF. The outcomes of this study will determine how PRF influences the immune system and immune homeostasis in humans.
Polarity Regulation In T Cells: Mechanisms And Consequences.
Funder
National Health and Medical Research Council
Funding Amount
$542,462.00
Summary
Advances in our understanding of how the immune system works have led to many breakthroughs in healthcare, including organ transplantation, management of autoimmune diseases and immunodeficiencies such as AIDS. To improve these treatments, we need a better understanding of how the immune system is controlled. This proposal explores the mechanisms by which immune cell signalling is regulated by spatial compartmentalisation within the cell.