A Virus-like Particle Vaccine For Hepatitis C Virus.
Funder
National Health and Medical Research Council
Funding Amount
$199,013.00
Summary
The aim is to evaluate the efficiency of a virus-like particle (VLP) vaccine for hepatitis C virus (HCV). HCV infects about 10,000 people every year in Australia and approximately 8, 000 of these will develop persistent infection. As a result, there are currently 150,000-200,000 HCV carriers in Australia and 500 million worldwide. These individuals represent a source of infection. Although the major route for transmission is blood and blood products, the advent of HCV screening in the blood bank ....The aim is to evaluate the efficiency of a virus-like particle (VLP) vaccine for hepatitis C virus (HCV). HCV infects about 10,000 people every year in Australia and approximately 8, 000 of these will develop persistent infection. As a result, there are currently 150,000-200,000 HCV carriers in Australia and 500 million worldwide. These individuals represent a source of infection. Although the major route for transmission is blood and blood products, the advent of HCV screening in the blood banks has reduced the risk of infection from this source. However, many intravenous drug users (IVD) share needles and although it is not common, transmission to spouses of carriers is well recognised. In addition, approximately 20% of HCV carriers have no recognised risk factor and it is unclear how these individuals became infected. Transmission of the virus to hospital inpatients and outpatients is also well recognised and as a result, it is clear that a vaccine is urgently required. However, as HCV cannot be cultured in the laboratory, it is impossible to develop a traditional vaccine; furthermore, because a proportion of patients who recover from HCV infection have no specific immunity and thus can be re-infected, the design of a vaccine presents a number of problems. Thus a vaccine which is based on the development of neutralising antibody is unlikely to be effective, in contrast to a vaccine which is designed to generate a cellular immune response. VLPs induce an effective cellular immune response and we plan to make VLPs composed of the L1 protein of bovine papillomavirus (BPV) which is fused to the highly immunogenic HCV core protein or to a string of protein segments (polytope). Laboratory mice will be vaccinated with these VLP and the cellular immune response measured. The vaccine will then be administered to HCV carriers to ensure the safety and the immunological efficacy of the product. This will be assessed serologically and clinically.Read moreRead less
Development Of Hepatitis B Surface Antigen As A Generic Vector For The Delivery Of Foreign CTL Epitopes.
Funder
National Health and Medical Research Council
Funding Amount
$439,642.00
Summary
Many kinds of cancer and infections display unique proteins which the body's immune system can recognise as ' foreign', and mount an immune response which, if correctly harnessed, will kill the cancer or infected cells . A way to harness the immune response is to vaccinate with these unique proteins. However, new ways need to be found to deliver the unique proteins to produce the maximal possible anti- cancer or pathogen response, and one that is long lived. In particular one needs to stimulate ....Many kinds of cancer and infections display unique proteins which the body's immune system can recognise as ' foreign', and mount an immune response which, if correctly harnessed, will kill the cancer or infected cells . A way to harness the immune response is to vaccinate with these unique proteins. However, new ways need to be found to deliver the unique proteins to produce the maximal possible anti- cancer or pathogen response, and one that is long lived. In particular one needs to stimulate the cellular arm of the immune response to produce killer cells named CTLs which specifically kill cancer or infected cells. In this project we plan to use an already-licensed human vaccine - the Hepatitis B surface antigen vaccine , or HBsAG, - and genetically modify it to contain important regions of cancer or pathogen proteins termed 'epitopes'. We surmise that immunisation with these modified HBsAg will elicit powerful CTL responses which will killer cancer or infected cells.Read moreRead less
Novel Generic Vaccine Approaches Applied For The Prevention Of Hepatitis C And Influenza Virus Infections.
Funder
National Health and Medical Research Council
Funding Amount
$392,328.00
Summary
For the induction of good immune responses, antigens should be delivered in several copies on a defined particle. The small envelope protein (HBsAg) encoded by the hepatitis B virus (HBV) has the capacity to self-assemble with host derived lipids into VLPs. HBsAg VLPs are the sole component of one of the most successful vaccines, and clinical trials have shown that they are a successful delivery system for foreign epitopes or protein domains. Hepatitis C virus (HCV) and Influenza viruses are maj ....For the induction of good immune responses, antigens should be delivered in several copies on a defined particle. The small envelope protein (HBsAg) encoded by the hepatitis B virus (HBV) has the capacity to self-assemble with host derived lipids into VLPs. HBsAg VLPs are the sole component of one of the most successful vaccines, and clinical trials have shown that they are a successful delivery system for foreign epitopes or protein domains. Hepatitis C virus (HCV) and Influenza viruses are major human pathogens. HCV has infected 200 million people worldwide, and there is no effective vaccine available. Influenza continues to affect thousands of people each year causing epidemics with severe morbidity and considerable mortality. Current influenza vaccines are mostly inactivated formulations and they exhibit poor immunogenicity in immunological naive persons such as children and in the elderly. The influenza vaccines are not optimal for stimulation of cell-mediated immunity. We propose to use particulate antigens as a delivery platform for influenza and HCV-specific epitopes with the focus to develop approaches to target various HCV and influenza strains, including H5N1 bird influenza. We have successfully produced modified VLPs containing HCV-specific sequences, which are able to induce anti-HCV antibodies with neutralising capacity. We hypothesise that the design of VLPs with an appropriate set of HCV-specific antigens will enhance the neutralising capacity of anti-HCV sera and this may overcome strain specificity. This application will exploit a prototype delivery system to induce antibody and also cellular responses against a variety of HCV- and influenza specific target sequences (epitopes). The outcome of this study will be a prototype multivalent vaccine to a range of HCV- and influenza-specific epitopes. As a delivery system this will be ideal for vaccination against agents that are highly variable.Read moreRead less
Analysis Of Low Radiation Dose Outside Of The Treatment Field Received By Cancer Patients Undergoing Radiotherapy
Funder
National Health and Medical Research Council
Funding Amount
$332,384.00
Summary
Every medical intervention is associated with risk. The present proposal aims to quantify the dose from radiation that is delivered outside the actual target region in radiotherapy of breast cancer patients. This information can help the development of better irradiation techniques as well as inform patients and their carers about possible long term side effects. Finally, the research can be used to finetune radiobiological models by comparing clinical outcomes and accurately calculated doses.
Validating And Optimising The Analysis Of Magnetic Resonance Physiology Data
Funder
National Health and Medical Research Council
Funding Amount
$91,725.00
Summary
Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles ar ....Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles are applicable and optimal for fMRI-EEG data. The proposed project aims at validating and optimising the analysis strategies for fMRI-EEG data.Read moreRead less