Phase I/IIa Trials Of A Novel T-cell Epitope-based Peptide Therapy For Peanut Allergy
Funder
National Health and Medical Research Council
Funding Amount
$1,440,000.00
Summary
Peanut allergy affects ~2% of the population and is the major cause of food triggered deaths from anaphylaxis. Typically peanut allergy is lifelong. Currently there is no specific treatment. Our vast experience in immunology for house dust mite and grass immunotherapy allowed us to identify critical components of peanut proteins needed as a safe vaccine to build tolerance to peanut foods. Now we will progress this novel and revolutionary vaccine through early phase clinical trials.
Studying The Novel Role For G Protein-coupled Receptor Signalling In Leukaemia Development
Funder
National Health and Medical Research Council
Funding Amount
$373,144.00
Summary
Recent research has shown the clinical importance of abnormal stem cells (LSC) in acute myeloid leukaemia (AML). LSC are resistant to therapeutics suggesting that they could be a cause of relapse. Identifying signalling pathways that drive LSC development is essential to selectively eradicate LSC that could offer substantial therapeutic benefit. This proposal aims to identify and evaluate critical signalling pathways as a potential therapeutic target for developing effective novel LSC-targeted t ....Recent research has shown the clinical importance of abnormal stem cells (LSC) in acute myeloid leukaemia (AML). LSC are resistant to therapeutics suggesting that they could be a cause of relapse. Identifying signalling pathways that drive LSC development is essential to selectively eradicate LSC that could offer substantial therapeutic benefit. This proposal aims to identify and evaluate critical signalling pathways as a potential therapeutic target for developing effective novel LSC-targeted therapy in AML.Read moreRead less
Nanomedicines Immunotargeting: Hitting The Target Or Lost In Translation ?
Funder
National Health and Medical Research Council
Funding Amount
$413,042.00
Summary
Nanomedicines are some of the most exciting novel approaches to improving the way we detect, manage and treat cancers. This cross-disciplinary project aims to provide a rigorous understanding of how nanomedicines penetrate solid tumour tissues. To validate in vitro tumour model developed in the project, in vivo studies will be carried out in a mice model. The penetration and distribution of nanomedicines inside tumour tissues after intravenous administration will be determined.
Redirecting T-cells For Immunotherapy Of Leukaemia And Lymphoma By The Expression Of A CD19-specific Chimeric Antigen Receptor Using The PiggyBac Transposon Gene Modification System
Funder
National Health and Medical Research Council
Funding Amount
$374,876.00
Summary
Most lymphomas respond to therapy but then relapse. Immune cells can attack and kill virus related lymphomas. However, most lymphomas are NOT virus related. We will create immune cells targeting these virus negative lymphomas by inserting artificial receptors into the immune cells. These receptors attach to the lymphoma and activate the immune cells. The immune cells will home to the lymphoma, kill lymphoma cells and persist in the body for many years, preventing lymphoma relapse.
Inhibiting Tumour Growth By Targeting EphA3 And Disrupting Tumour Stromal And Vascular Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$645,136.00
Summary
Tumours consist of cancer cells, tumour blood vessels and connective tissue, all of which are different to normal tissues. Many of the cells making up tumour vessels and connective tissue are recruited, during initial growth and subsequent spreading of tumours, from the bone marrow. Our research will examine the presence and function of the EphA3 receptor on these cells during tumour development and assess how our anti-EphA3 antibody inhibits tumour growth by targeting stroma and vasculature.