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.
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.
A new Src, PKCdelta and Akt regulated protease activated receptor system in metastasis. In contrast with localised cancer which can often be cured, curative treatment is generally not possible for cancer that has spread. This project will characterise a protein that drives the spread of cancer and to develop new approaches to treat patients at risk of developing these aggressive tumours that spread to other organs.
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
Crosstalk between breast cancer cells and the microenvironment to promote metastasis. Breast cancer spread (metastasis) to distant tissues is usually fatal. It is now clear that cross-talk between cancer cells and other normal cells is essential for metastasis and previous studies have discovered two key mechanisms: tumour cell suppression of immune defence pathways to escape immune recognition, and activation of proteases to promote invasion and blood vessel growth. Using unique models and cell ....Crosstalk between breast cancer cells and the microenvironment to promote metastasis. Breast cancer spread (metastasis) to distant tissues is usually fatal. It is now clear that cross-talk between cancer cells and other normal cells is essential for metastasis and previous studies have discovered two key mechanisms: tumour cell suppression of immune defence pathways to escape immune recognition, and activation of proteases to promote invasion and blood vessel growth. Using unique models and cellular imaging, this project aims to investigate the cell specific functions of these pathways and the therapeutic potential of altering their expression and function. This project may lead to the development of novel predictors of metastasis in patients and new targeted therapeutics to prevent breast cancer spread.Read moreRead less
Understanding endocrine tumorigenesis - opportunities for new diagnostics and therapies. This project will generate new knowledge significant for improving cancer diagnosis and designing new therapies for cancer patients as we embrace the personalised medicine era. Specific focus is on endocrine tumours. This research has as its aim improved survival for people diagnosed with cancer.
Characterisation Of The Anti-apoptotic Function Of P-glycoprotein And Transcriptional Regulation Of The MDR1 Gene.
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
The ability of tumor cells to survive treatment by chemotherapy is a major obstacle in curing patients with cancer. One mechanism by which cancer cells become multidrug resistant (MDR) is their acquired expression of a protein called P-glycoprotein (P-gp) that extrudes cytotoxic drugs out of the cancer cell. We have defined a novel role for P-gp in protecting cells against death induced by non-drug stimuli, where an efflux effect of P-gp would have no obvious benefit. This broader survival effec ....The ability of tumor cells to survive treatment by chemotherapy is a major obstacle in curing patients with cancer. One mechanism by which cancer cells become multidrug resistant (MDR) is their acquired expression of a protein called P-glycoprotein (P-gp) that extrudes cytotoxic drugs out of the cancer cell. We have defined a novel role for P-gp in protecting cells against death induced by non-drug stimuli, where an efflux effect of P-gp would have no obvious benefit. This broader survival effect of P-gp may be explained by its ability to regulate the activity of key enzymes (caspases) that exist within cells to induce cell suicide when appropriate. Many chemotherapeutic drugs activate caspases to kill target cells and as P-gp can inhibit caspase activation, it is therefore possible that P-gp affects the activity of anti-cancer drugs by both removing the drugs from the target cells and inhibiting the pathways through which the drugs can kill a cell. We have mutated P-gp to define the region that is necessary for its caspase regulatory function. We are now identifying the proteins that bind to this region so that we can determine how P-gp regulates caspase activation. In addition, we have defined the manner by which P-gp expression is kept low in normal cells and is upregulated following exposure of cells to chemotherapeutic drugs. The gene encoding P-gp (MDR1) is normally switched off due to the way it is packaged within a nuclear structure called chromatin. We have shown that treatment of cancer cell lines with chemotherapeutic drugs alters chromatin in such a way that the MDR1 gene is activated. We will identify the proteins and complexes involved in drug-mediated regulation of chromatin structure and determine if this phenomenon occurs within patients receiving chemotherapy. Our new findings may lead to novel treatment options for patients that have MDR cancers and may provide insight into possible new ways to inhibit the formation of P-gp-expressing MDR tumors.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
Molecular And Cellular Determinants Of Tubulin-targeted Drug Action
Funder
National Health and Medical Research Council
Funding Amount
$484,500.00
Summary
Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell d ....Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell division in cancer cells that makes them so effective and such important targets for new drug design. Unfortunately, the reasons why tumours develop resistance to these drugs or even why some tumours do respond well is not understood. This proposal will determine how the makeup and stability of the tubulin-microtubule proteins influences how these drugs work in both childhood and adult tumour cells. Finally, components of drug resistant tumour cells will be examined using technology that allows us to simultaneously separate and identify hundreds of proteins some of which may provide useful targets for the design of new drugs for the treatment of cancer. To improve cancer survival rates it is essential to accurately target the use of existing drugs and to identify new targets for anticancer drug development.Read moreRead less
Development Of Novel And Selective Anticancer Drugs Derived From Cysteine.
Funder
National Health and Medical Research Council
Funding Amount
$264,250.00
Summary
In the next few years cancer is projected to become the leading cause of death in industrialised countries. Cancer chemotherapy currently relies on destruction of tumours by toxic drugs that indiscriminately kill all cell types, resulting in side effects that limit treatment. In the 21st century new cancer drugs will more effectively destroy malignant tumour cells without damaging normal cells. The R and D herein will value-add to our discovery of a new class of potent and orally active anti-tum ....In the next few years cancer is projected to become the leading cause of death in industrialised countries. Cancer chemotherapy currently relies on destruction of tumours by toxic drugs that indiscriminately kill all cell types, resulting in side effects that limit treatment. In the 21st century new cancer drugs will more effectively destroy malignant tumour cells without damaging normal cells. The R and D herein will value-add to our discovery of a new class of potent and orally active anti-tumour drugs that possess unusually high selectivity in acting on cancer cells without killing normal human cells. Our current proof of concept will be turned into a drug development candidate that will improve our negotiating position with commercial partners.Read moreRead less