A Targeted Drug Delivery System For Treatment Of Bone Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$243,607.00
Summary
The most common site where cancer spreads is the bone. Once it happens, it can dramatically affect patient’s quality of life and chance of survival. Current treatments are mostly palliative or associate with acute side effects due to systematic administration of anticancer drugs and their inability to selectively target the diseased area. This study aims to develop a nanocarrier that can uptake, protect and deliver anticancer drugs to the affected site in bone.
Understanding And Manipulating The Epigenetic Networks That Define Osteosarcoma
Funder
National Health and Medical Research Council
Funding Amount
$80,467.00
Summary
Osteosarcoma is the most common type of bone cancer and the fifth most common form of cancer in children. Although osteosarcoma begins in bones, the cancer often spreads to other parts of the body. Patients have a very poor chance of survival if their cancer has spread. We will use mouse and human models of osteosarcoma to improve our understanding of how the cancer is different from the normal bone forming cells. This information will help us to find new treatments to improve patient outcomes.
Determining The Origin Of Lethal Metastases In Multifocal Primary Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$696,470.00
Summary
New biomarkers are required to accurately predict lethal prostate cancer from benign, indolent disaese that doesn't require expensive treatment. To do this relies on finding molecular differences between disease states. Advancements in high throughput genomic technologies enables us to now probe the lethal prostate cancer genome and transcriptome and distinguish this disease state from other forms of prostate cancer.
Targeting A Master Regulator Of Tumour Cell Plasticity As A New Adjuvant Therapy For Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$780,338.00
Summary
Prostate cancer (PCa) claims the lives of over 3,000 Australian men each year. This highlights the urgent need to identify new molecular targets that can be developed as additional therapies for men with PCa. Our team has identified the protein, Zeb1, to be highly expressed in aggressive and treatment resistant forms of PCa. This study aims to characterise the role of Zeb1 in the lethal progression of PCa and to develop a new therapeutic agent to inhibit the production of ZEB1 by cancer cells.
Overcoming Therapeutic Resistance In Pancreatic Cancer
Funder
National Health and Medical Research Council
Funding Amount
$924,901.00
Summary
Pancreatic cancers arise when abnormal cells grow out from otherwise normal tissue. The resulting tumours contain a number of different types of cells, some of which help the tumour to grow, and some of which fight the tumour. We are interested in understanding how soluble molecules called cytokines influence the cells that promote tumour growth and metastasis. In particular, we will test whether cytokine inhibitors can overcome tumour resistance to chemotherapy.
Treating Metastatic Melanoma With Stereotactic Ablative Body Radiotherapy And IMmune Pathway ACTivation (SABR-IMPACT)
Funder
National Health and Medical Research Council
Funding Amount
$185,445.00
Summary
Metastatic melanoma has historically had extremely poor survival. Drugs that activate the immune system provide some hope, and in the minority who respond survival beyond 10 years is possible. Radiotherapy causes local tumour death resulting in antigen exposure and systemic effects that may also stimulate the immune system. The combination of radiotherapy and immune activating drugs may be synergistic and result in improved survival for a greater proportion of patients.
Anti-metastasis Therapy Via Nanoparticle Mediated Drug Delivery
Funder
National Health and Medical Research Council
Funding Amount
$835,199.00
Summary
Most cancer deaths are caused by tumours that have spread to other vital organs, a process called metastasis. The common treatment for metastatic disease is chemotherapy, but the amount given is limited by toxicity to the patient. In this project, we are developing a way of delivering the therapies only to tumour cells, thereby sparing normal tissues. We are using nanoparticles that have a molecule on their surface that directs the therapy directly to tumour cells.
The Microniche: A Novel In-vitro And In-vivo Prostate Cancer Model System
Funder
National Health and Medical Research Council
Funding Amount
$561,012.00
Summary
Maintaining primary prostate cancer cells (PCa) in vitro remains an enormous challenge for the field, and this obstructs efforts to systematically characterize cell behaviour and quantify drug response. Our group recently developed a 3-demsensional (3D) organoid culture system that does maintain PCa in vitro, and here we will integrate this technology with our 3D bone maorrow niche model system to better characterize PCa bone metastases and identify new clinical treatment regimes.
Elucidating The Role Of Claudin-2 In Tumour Initiation And Metastasis Development From Colorectal Cancer: Consequence For Tumour Relapse
Funder
National Health and Medical Research Council
Funding Amount
$398,993.00
Summary
Mortality from colorectal cancer is often due to the development of metastases. Cancer stem cells (CSC) are suspected to provide a major drive for metastasis development, to resist current therapies, and to initiate tumour relapse. Yet, little is known about mechanisms that control CSC behaviour. Our project investigates the role of claudin-2, a cell adhesion protein that is strongly overexpressed in colorectal cancer, in the regulation of CSCs, metastasis development and tumour relapse.
Determining The Natural History Of Localized High-risk Melanoma And Risk Factors For Melanoma Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$103,980.00
Summary
This PhD thesis aims to describe 2-year survival rates of patients with localised melanoma. We will investigate risk factors and patterns of melanoma spread in patients with high-risk localised lesions. Risk factors for developing ulcerated versus non-ulcerated melanomas will be explored. We aim to describe support service use in melanoma patients in rural, regional and urban areas in Queensland.