Novel vitamin E analogues disrupt autocrine signalling and angiogenesis: Mechanistic studies and relevance to cancer management. Breast and mesothelioma cancers present a severe problem in Australia and many patients succumb due to lack of appropriate treatment. We believe that vitamin E analogues, selective drugs efficient against cancer cells, hold a promise as future drugs against these two pathologies. Vitamin E analogues act by several mechanisms, including toxic effect on the cancer cells ....Novel vitamin E analogues disrupt autocrine signalling and angiogenesis: Mechanistic studies and relevance to cancer management. Breast and mesothelioma cancers present a severe problem in Australia and many patients succumb due to lack of appropriate treatment. We believe that vitamin E analogues, selective drugs efficient against cancer cells, hold a promise as future drugs against these two pathologies. Vitamin E analogues act by several mechanisms, including toxic effect on the cancer cells and also on cells that are necessary for efficient progression of tumours, such as cells of the malignant blood vessels. Results of this project will be used to prepare clinical testing of these highly promising drugs.Read moreRead less
Developing efficient cancer therapies by targeting of vitamin E analogues to mitochondria. We propose a new strategy of developing efficient anti-cancer agents. Results of this project will lead to establishing highly proising anti-cancer drugs and will open new approaches for the design of novel agents that efficiently kill cancer cells.
Novel Vitamin E Analogues with Enhanced Specificity for Malignant Cells. The aim of this project is to synthesise and characterise novel compounds based on vitamin E succinate that are capable of efficiently and selectively killing cancer cells. The new compounds will be tested for their ability to induce programmed cell death in cancer cells and the most active of them will be also tested for anti-cancer effect in a pre-clinical model. We believe that novel analogues based on vitamin E succinat ....Novel Vitamin E Analogues with Enhanced Specificity for Malignant Cells. The aim of this project is to synthesise and characterise novel compounds based on vitamin E succinate that are capable of efficiently and selectively killing cancer cells. The new compounds will be tested for their ability to induce programmed cell death in cancer cells and the most active of them will be also tested for anti-cancer effect in a pre-clinical model. We believe that novel analogues based on vitamin E succinate can lead to the discovery of very effcient and selective anti-cancer drugs with no side-effects that may be used for patient treatment in the future. This makes our project of exceptional significance.Read moreRead less
Role of Histone deacetylase 3 (HDAC3) in intestinal epithelial cell homeostasis and tumorigenesis. Colon cancer is the most common cancer that affects men and women in Australia. Annually, in Victoria alone, more than 3400 people are diagnosed with colon cancer. Colon cancer arises through the accumulation of mutations in key genes over time. Identification of cancer causing genes provides the basis for the design of new cancer therapies. We recently identified a gene called Histone deacetylase ....Role of Histone deacetylase 3 (HDAC3) in intestinal epithelial cell homeostasis and tumorigenesis. Colon cancer is the most common cancer that affects men and women in Australia. Annually, in Victoria alone, more than 3400 people are diagnosed with colon cancer. Colon cancer arises through the accumulation of mutations in key genes over time. Identification of cancer causing genes provides the basis for the design of new cancer therapies. We recently identified a gene called Histone deacetylase 3 (HDAC3) as potentially involved in promoting colon cancer. The current proposal will now extend and validate this finding in mice. Importantly, drugs which inhibit HDAC3 have recently been developed for the treatment of cutaneous T-cell lymphoma. Defining the role HDAC3 plays in colon cancer will justify testing these drugs in colon cancer patients.Read moreRead less
Non-classical steroid signalling through SF-1 responsive genes: a key mechanism in environmental endocrine disruption, cancer, and aging. Endocrine disruption by pervasive manmade chemicals, which mimic natural hormones, and are found in plastics, cosmetics, and fire retardants, is known to cause developmental defects in model organisms and wildlife, with substantial risk also to human health. This risk increases with increasing population density and dependence on water recycling. Current tests ....Non-classical steroid signalling through SF-1 responsive genes: a key mechanism in environmental endocrine disruption, cancer, and aging. Endocrine disruption by pervasive manmade chemicals, which mimic natural hormones, and are found in plastics, cosmetics, and fire retardants, is known to cause developmental defects in model organisms and wildlife, with substantial risk also to human health. This risk increases with increasing population density and dependence on water recycling. Current tests to assess such substances use oversimplified modes of hormone action and grossly underestimate the risk of endocrine disruption. This proposal will yield new knowledge about how such substances act in the body, or on wildlife, and form the basis for new more sensitive methods of environmental monitoring.Read moreRead less
Regulation of tissue morphogenesis in reproductive function and metastatic cancer. Infertility, endocrine and metabolic disorders and reproductive cancers are all increasing medical problems and principal contributors to morbidity and mortality in the Australian community. This research takes the novel approach of investigating the mechanisms of dynamic remodeling in reproductive organs. Novel hormonally controlled mechanisms of tissue remodeling unique to reproductive organs and cancers in ad ....Regulation of tissue morphogenesis in reproductive function and metastatic cancer. Infertility, endocrine and metabolic disorders and reproductive cancers are all increasing medical problems and principal contributors to morbidity and mortality in the Australian community. This research takes the novel approach of investigating the mechanisms of dynamic remodeling in reproductive organs. Novel hormonally controlled mechanisms of tissue remodeling unique to reproductive organs and cancers in adults have been discovered. The results are being applied to new medical alternatives for infertile patients and new diagnostics and therapeutics for patients with metastatic cancers. The information is also being applied to improve reproductive efficiency in animal production industries.Read moreRead less
How IGFBP-3 improves cancer cell responsiveness to DNA-damaging therapies. A protein called IGFBP-3 can modulate the way cancer cells respond to treatments such as radiotherapy and certain chemotherapy drugs. These therapies, which act by damaging cells' DNA, play an important role in the treatment of many cancers, but their effectiveness is limited by the ability of cells to oppose the treatment by repairing damaged DNA. This project aims to discover how IGFBP-3 acts to change cancer cells' res ....How IGFBP-3 improves cancer cell responsiveness to DNA-damaging therapies. A protein called IGFBP-3 can modulate the way cancer cells respond to treatments such as radiotherapy and certain chemotherapy drugs. These therapies, which act by damaging cells' DNA, play an important role in the treatment of many cancers, but their effectiveness is limited by the ability of cells to oppose the treatment by repairing damaged DNA. This project aims to discover how IGFBP-3 acts to change cancer cells' response to treatment, using breast cancer cells growing in culture as a model system. This work has the potential to lead to improvements in the treatment of cancer patients by increasing our understanding of what happens when cancer cells are exposed to radio- or chemotherapy.Read moreRead less
New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways res ....New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways responsible for how a cell manages stress by regulating levels of proteins involved in the cellular stress response. Discoveries made during the course of this research will provide knowledge of gene and protein interactions that will be important in the future to develop anti-cancer therapies. Read moreRead less
Molecular signals that regulate the regenerative properties of intestinal epithelial cells. Most cancer deaths are due to the cancer spreading to other organs. Cancer is much more difficult to treat once it has spread to other organs in the body where the cancer cells can exist in a dormant state. Dormant cancer cells evade conventional anticancer treatment and can remain dormant for a very long time before they change back to a 'tumour-growing' state. An understanding of how the cancer initiati ....Molecular signals that regulate the regenerative properties of intestinal epithelial cells. Most cancer deaths are due to the cancer spreading to other organs. Cancer is much more difficult to treat once it has spread to other organs in the body where the cancer cells can exist in a dormant state. Dormant cancer cells evade conventional anticancer treatment and can remain dormant for a very long time before they change back to a 'tumour-growing' state. An understanding of how the cancer initiating (stem cell) property of tumour cells is maintained offers potential novel avenues to eliminate persistent cancer cells. This knowledge will ultimately lead to better management and treatment of cancer, and increase survival. An understanding of stem cell behaviour is also central to the control of degenerative conditions.Read moreRead less
The role of retinoic acid signalling in the development of the oesophageal epithelium. Oesophageal adenocarcinoma (OAC) is a disease with increasing incidence. The majority of patients with OAC are diagnosed when the cancer is at a late stage and therefore treatment options are limited, meaning the disease is almost invariably fatal. OAC arises from the precancerous condition, Barrett's oesophagus, which occurs as a consequence of chronic reflux, although the key processes driving its developmen ....The role of retinoic acid signalling in the development of the oesophageal epithelium. Oesophageal adenocarcinoma (OAC) is a disease with increasing incidence. The majority of patients with OAC are diagnosed when the cancer is at a late stage and therefore treatment options are limited, meaning the disease is almost invariably fatal. OAC arises from the precancerous condition, Barrett's oesophagus, which occurs as a consequence of chronic reflux, although the key processes driving its development are unknown. This project aims to better understand the critical first step in the progression to cancer and thus expand the scope for the development of therapies, particularly those aimed at early intervention, and tools that predict progression.Read moreRead less