Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100006
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
An adaptable and dedicated linear accelerator for medical radiation research. Leading radiation scientists developing innovative methods and devices for treating cancer patients will collaborate in future research using this highly adaptable linear accelerator for medical radiation research. Innovations in tumour targeting, better patient safety, new medical devices and improved cancer outcomes are expected.
The critical role of the class III histone deacetylase SIRT2 in stabilizing N-Myc oncoprotein. Cancer is the commonest cause of death from disease in children. Neuroblastoma is the commonest solid tumor in early childhood. This project will investigate the critical roles of SIRT2 protein in increasing the expression of N-Myc oncoprotein and consequently inducing neuroblastoma, and SIRT2 inhibitors as anticancer agents.
A phenomenological approach to improve radioembolisation treatment of cancer. In recent years, radioembolisation for liver cancer has become an effective therapeutic option. However, it is likely that patients are being “under-treated” as doses remain based on results from external radiation therapy. This project will develop a phenomenological approach to radionuclide therapy to improve outcomes for cancer patients.
Mitochondrially targeted anti-cancer drugs modulate the mitochondrial genome. Successful cancer management requires novel therapeutical approaches. This project will test the effect of a new class of compounds that target mitochondria, the powerhouse of the cells, where they suppress expression of mitochondrial genes. By this mechanism, cancers that are resistant to apoptosis induction can be inhibited.
Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen recepto ....Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen receptor (AR)-targeting therapies in human prostate tumours. The identification and functional assessment of these biomarkers will identify those that can be used as surrogate endpoints in clinical trials, facilitate earlier approval of investigational agents and lead to improved options for therapeutic management of prostate cancer.Read moreRead less
Novel platinum(IV) complexes that are targeted to and trapped by tumours and tumour cells. Platinum complexes continue to be a mainstay in the treatment of solid tumours and their combination with molecularly targeted agents selected for the type of tumour and the mutations identified is expected to lead to continued growth in their use. However, their toxicity remains a major impediment to their use and effectiveness and therefore, this project aims to develop less toxic analogues that are as l ....Novel platinum(IV) complexes that are targeted to and trapped by tumours and tumour cells. Platinum complexes continue to be a mainstay in the treatment of solid tumours and their combination with molecularly targeted agents selected for the type of tumour and the mutations identified is expected to lead to continued growth in their use. However, their toxicity remains a major impediment to their use and effectiveness and therefore, this project aims to develop less toxic analogues that are as least as effective as current drugs. This project will combine recent developments in stabilisation and cellular trapping of platinum(IV) pro-drugs with a range of strategies designed to limit activation of these pro-drugs to the tumour environment.Read moreRead less
EGFR-directed radioimmunotherapy combined with chemotherapy and DNA repair inhibition: development towards clinical application for aggressive cancers. Pancreatic ductal adenocarcinoma (PDAC) and triple negative breast cancer (TNBC) are aggressive diseases which lack effective therapies in clinical use. A novel and curative therapy was developed against PDAC and TNBC which involves targeted radiotherapy combined with chemotherapy and DNA damage response inhibition. This project will develop a “p ....EGFR-directed radioimmunotherapy combined with chemotherapy and DNA repair inhibition: development towards clinical application for aggressive cancers. Pancreatic ductal adenocarcinoma (PDAC) and triple negative breast cancer (TNBC) are aggressive diseases which lack effective therapies in clinical use. A novel and curative therapy was developed against PDAC and TNBC which involves targeted radiotherapy combined with chemotherapy and DNA damage response inhibition. This project will develop a “preclinical data package” comprising a biological rationale and preclinical evidence of safety and efficacy that together would justify an early phase clinical trial. This package includes the choice of formulations, mechanism of action and safety studies. This development will have an immediate impact for PDAC and TNBC patients and a future impact on other EGFR-positive cancers.Read moreRead less
Caged lanthanides for use in photo-dynamic therapy and near infra-red imaging. The early detection and effective treatment of cancer are two critical factors which determine survivability. This project will provide improved drugs for photo-dynamic therapy and develop emissive probes for near infra-red imaging to allow better discrimination between healthy and diseased tissue and improve subsequent treatment.
Quantum collision theory for astrophysics, fusion energy and hadron therapy. The project intends to investigate collision processes involving charged particles interacting with complex atoms and molecules. Although the theory of electron, positron and ion collisions with simple atoms and molecules has advanced in recent years, the corresponding computational modelling is difficult due to the mix of the countably and uncountably infinite spectrum of the target, the long-range Coulomb potential, a ....Quantum collision theory for astrophysics, fusion energy and hadron therapy. The project intends to investigate collision processes involving charged particles interacting with complex atoms and molecules. Although the theory of electron, positron and ion collisions with simple atoms and molecules has advanced in recent years, the corresponding computational modelling is difficult due to the mix of the countably and uncountably infinite spectrum of the target, the long-range Coulomb potential, and the multicentre nature of the target and the rearrangement processes. These difficulties could be overcome using a convergent close-coupling method. This project plans to apply the method to complex quantum collision systems in diverse applications of current interest such as fusion energy, lighting, astrophysics, and cancer imaging and therapy.Read moreRead less