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In cancer cells the normal process of cell death (called apoptosis) is defective, helping abnormal cells to grow and multiply unchecked. The Bak protein is a member of the Bcl-2 family of apoptosis regulators, and plays a pivotal role in mediating cell death. By defining each step in Bak-mediated apoptosis, we aim to better understand how cancer cells accumulate, and how targeting the Bcl-2 family may lead to effective anti-cancer therapeutics.
Role Of Bak And Bax Membrane Anchors In Targeting And Apoptotic Pore Formation.
Funder
National Health and Medical Research Council
Funding Amount
$352,319.00
Summary
In cancer cells the normal process of cell death (called apoptosis) is defective, helping abnormal cells to grow and multiply unchecked. The Bak and Bax proteins are members of the Bcl-2 family of apoptosis regulators, and play a pivotal role in mediating cell death. By defining how these proteins form a pore in mitochondria, the point of no return in cell death, will help the development of novel anti-cancer agents that target the Bcl-2 family in general, and Bak and Bax in particular.
Non-viral Vectors For Targeted Delivery Of RNAi Nucleotides To Cervical Cancers
Funder
National Health and Medical Research Council
Funding Amount
$415,738.00
Summary
RNA interference (or gene silencing) is a new technique whereby we are able to turn off the expression of a particular gene either temporarily or permanently. Cancer is basically a genetic disease where certain protective genes are lost or cancer-causing genes expressed. Gene silencing holds great promise in the treatment of genetic disorders, infectious diseases and cancer. Cervical cancer is caused by infection with the human papillomavirus and the expression of two cancer-causing genes. Using ....RNA interference (or gene silencing) is a new technique whereby we are able to turn off the expression of a particular gene either temporarily or permanently. Cancer is basically a genetic disease where certain protective genes are lost or cancer-causing genes expressed. Gene silencing holds great promise in the treatment of genetic disorders, infectious diseases and cancer. Cervical cancer is caused by infection with the human papillomavirus and the expression of two cancer-causing genes. Using RNA interference we can turn off the expression of these two genes which results in the death of the cancer cell. We are also able to cure mice of tumours derived from human cervical cancer. The major issue with gene silencing is how to deliver it effectively to patients. Here we are investigating novel nanoparticulate systems to deliver this new gene-inhibiting drugs preferentially to the tumour site.Read moreRead less
Multistage Vaccines For The Prevention Of Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$884,290.00
Summary
Almost two million people die from tuberculosis (TB) each year. The current vaccine, BCG, is ineffective at controlling TB and the type of immune response needed to protect against the disease is poorly understood. We have discovered new antigens of the TB bacterium, and we will combine them with novel delivery strategies to develop new TB vaccines. We will also determine the type of immune response needed to protect against TB, which will aid progression of vaccines into clinical trials.
Adoptive Cell Transfer Incorporating Vaccination (ACTIV) Therapy For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$601,950.00
Summary
We have made a breakthrough in a new treatment for cancer that can destroy large tumours in mice. The treatment involves a transfusion of white blood cells and an injection of a vaccine. In this project, we will seek to understand how the treatment works, and apply it to human white blood cells in preparation for a clinical trial in cancer patients.
Development Of Cancer Immunotherapy Using Gene-engineered T Cells In A Self-antigen Mouse Model
Funder
National Health and Medical Research Council
Funding Amount
$428,602.00
Summary
Killer T lymphocytes can penetrate tumours and their transfer into cancer patients has demonstrated some encouraging results, but this form of therapy and other approaches including vaccination remain ineffective in most cancer patients. In this project, we propose to improve the tumour trafficking and anti-tumour activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells.
Group A streptococcus (GAS) is a bacteria that causes a wide range of disease in humans. GAS diseases are more common in Australias Indigenous population, and other health and economically disadvantaged groups than more affluent groups. In this study we will evaluate the effectiveness of novel vaccine candidates designed to prevent infection from all strains of GAS.
Vaccination Timeliness In Aboriginal And Non-Aboriginal Infants: Risk Factors For Delayed Vaccination And Impact On Disease Burden—a Record Linkage Study
Funder
National Health and Medical Research Council
Funding Amount
$538,183.00
Summary
Vaccination has had a significant impact, but preventable infections continue to occur, perhaps due to delayed uptake of scheduled doses. For the first time, we will link vaccination and other health records to: provide accurate estimates of the impact of vaccination; identify reasons for delayed vaccination; and quantify the expected reduction in disease burden if vaccination timeliness was improved. The study will help determine who would benefit most from efforts to improve timeliness.
Antigen Selection In The MHC-restricted Cellular Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$175,570.00
Summary
The body's white cells eliminate microorganisms through the actions of immune lymphocytes and other cells which conspire to kill and neutralise these unwanted guests. When microorganisms hide inside the cells of the body they are still detected by a set of T lymphocytes which have specific receptors for scrutinising the surface of cells for any changes which might signal an intracellular infection. The immune system is ever vigilant in its search for signs of infection which are generally appare ....The body's white cells eliminate microorganisms through the actions of immune lymphocytes and other cells which conspire to kill and neutralise these unwanted guests. When microorganisms hide inside the cells of the body they are still detected by a set of T lymphocytes which have specific receptors for scrutinising the surface of cells for any changes which might signal an intracellular infection. The immune system is ever vigilant in its search for signs of infection which are generally apparent when molecules called antigens are released by microorganisms and captured by the body's cells. This activates lymphocytes resulting in an immune response capable of eliminating the microorganisms. Scrutiny of the body's cells by lymphocytes occurs continuously even when there is no infection present in the body. Following infection of a cell, microbial antigens reveal the infection by their appearance on the cell surface where they are detected by the immune system's lymphocytes. This occurs through a mechanism called antigen presentation. During antigen presentation the proteins inside the cell, including those of any invading microorganism, are first degraded into shorter molecules called peptides. This event is called antigen processing. A fraction of the peptides created by antigen processing are captured by specialised receptors present on all cells. These receptors are called HLA or histocompatibility molecules. This project examines the molecular events which mediate the capture of peptide antigens by HLA molecules. The main focus is on those peptide antigens which elicit killer T cell responses by the immune system. A knowledge of how these peptides are selected for presentation and how they are captured and carried to the cell surface is fundamental to understanding immune responses to microorganisms, tumours, allergens, transplants and self tissues as in autoimmunity. Therefore the study is of great general relevance.Read moreRead less
Characterisation Of Anti-HBs Responses In Patients Undergoing Functional Hepatitis B Cure: Implication For Future Therapies
Funder
National Health and Medical Research Council
Funding Amount
$723,649.00
Summary
The hepatitis B virus causes liver cirrhosis and liver cancer. There is no cure for hepatitis B. However, a small number of patients can naturally rid themselves of the virus. We have identified 14 of these individuals and discovered that they have a unique immune response that is responsible for these “natural” cures. We plan to characterise this immune response and turn it into a therapeutic vaccine which can be used to cure patients who are still chronically infected.