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
The First Placebo-controlled Trial Of Opioid Analgesics For Acute Spinal Pain
Funder
National Health and Medical Research Council
Funding Amount
$1,024,067.00
Summary
Despite the widespread and increasing use of opioid analgesics, there is a complete lack of evidence on their efficacy in acute spinal pain. Concerns are also being raised because of the risks of potentially serious adverse events associated with opioid analgesics. In this world-first study, we will establish whether using opioid analgesics can effective reduce pain in people with acute spinal pain and provide rigorous evidence to inform the safe and appropriate use of this medicine.
A Preclinical Model Of Relapse In Acute Lymphoblastic Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$573,515.00
Summary
Leukaemia is the most common type of cancer in children but resistance to therapy continues to be a significant problem. This project will investigate the biology of drug-resistance and relapse using a mouse model that replicates the human disease. We hope to identify novel therapeutic targets that can be used in combination with existing therapies to improve outcomes in this disease. We also hope to identify markers that can be used to screen for patients at increased risk of relapse.
Development And Evaluation Of Novel Anti-inflammatory Products Derived From An Indigenous Medicinal Plant
Funder
National Health and Medical Research Council
Funding Amount
$276,598.00
Summary
This collaborative project between researchers at the University of South Australia and Indigenous traditional owners from Northern Kaanju homelands (Cape York Peninsula, Qld) will develop and evaluate products derived from the Northern Kaanju medicinal plant Dodonaea polyandra. Extracts of the plant and novel compounds isolated from it have anti-inflammatory activity. These have the potential to be used in inflammatory diseases such as dermatitis, arthritis and inflammatory bowel disease.
I am a cancer cell biologist investigating molecular mechanisms of leukaemia cell resistance to chemotherapeutic drugs, and novel strategies for the management of high risk or relapsed disease. For these purposes I have developed orthotopic xenograft mode
Roles Of Impaired Apoptosis And Differentiation In Tumourigenesis And Therapy
Funder
National Health and Medical Research Council
Funding Amount
$21,656,910.00
Summary
The ten scientific laboratories in this program have joined forces to investigate two ways in which tumours develop. Both are of particular interest, because they suggest new ways in which cancer might be overcome. Most of our tissues are continually renewed throughout life by production of new cells. Therefore many of the old cells in each tissue must die off to maintain the proper cell numbers. To eliminate cells that are no longer needed or have become damaged, the body has developed a remark ....The ten scientific laboratories in this program have joined forces to investigate two ways in which tumours develop. Both are of particular interest, because they suggest new ways in which cancer might be overcome. Most of our tissues are continually renewed throughout life by production of new cells. Therefore many of the old cells in each tissue must die off to maintain the proper cell numbers. To eliminate cells that are no longer needed or have become damaged, the body has developed a remarkable cell suicide process termed apoptosis. Unfortunately, however, occasionally a random accident to the genes in one of our cells prevents the machinery for apoptosis from being turned on. In that case, the cell will not die when it should and, by continually dividing, it may eventually give rise to a cancer. Since most cancer cells still retain most of the machinery for apoptosis, however, a drug that could switch on this natural cell death machinery would provide a promising new approach to cancer therapy. Identifying and developing such drugs is one major long-term goal of this program. The other focus of our program concerns stem cells. These are rare cells with the remarkable ability to generate an entire tissue. For example, one of our laboratories has identified stem cells that can generate all the cells in the breast. The almost unlimited regenerative capacity of stem cells has a built-in danger. If a stem cell acquires the ability to proliferate excessively, it can go on to form a tumour. Indeed, many cancer researchers now suspect that rare stem cells within a tumour cause its inexorable growth. If tumour growth is maintained by stem cells, it will be essential to develop new forms of therapy that target these rare cancer stem cells rather than merely the bulk of the tumour cells. This is another key long-term goal of our program.Read moreRead less
Development Of Small Molecule Modulators Of Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$621,558.00
Summary
Cancers rely on the deregulation of key cellular pathways. Along with biological and genetic tools, small molecules are powerful probes to understand these mechanisms. During the course of this research program, we will develop new and drug-like molecules that reinstate the cell death process to combat malignancies. This research will bring important advances for potential chemotherapies and create probes to better understand the biology of programmed cell death processes.
Improved Formulations Of Anti-cancer Agents 5-Fluorouracil And Oxaliplatin Using Excipient Technology
Funder
National Health and Medical Research Council
Funding Amount
$202,973.00
Summary
Chemotherapy plays a key role in cancer treatment, however, problems persist with severe adverse toxic effects. Combinations of anti-cancer agents give better results, but these agents still have major negative effects, for example, on veins and peripheral nerves and they must be given separately. We have developed a novel, all-in-one formulation of Oxaliplatin with 5-Fluorouracil and Leucovorin, with the potential for fewer toxic effects and improved patient care.