Inhibition Of Estrogen Signalling By Androgen Receptors: A Potential Mechanism For Suppression Of Breast Cancer Growth.
Funder
National Health and Medical Research Council
Funding Amount
$525,000.00
Summary
Breast cancer is a major health problem in Western countries including Australia, where it is the second-leading cause of cancer deaths in women. Breast cells require female sex hormones, called estrogens, for their growth and survival and consequently most current treatments for breast cancer aim to block the actions of these hormones in breast cancer cells. However there is still a large proportion of women who do not respond to these therapies or have an initial response but subsequently deve ....Breast cancer is a major health problem in Western countries including Australia, where it is the second-leading cause of cancer deaths in women. Breast cells require female sex hormones, called estrogens, for their growth and survival and consequently most current treatments for breast cancer aim to block the actions of these hormones in breast cancer cells. However there is still a large proportion of women who do not respond to these therapies or have an initial response but subsequently develop resistance. Evidence from our laboratory and others indicates that the male sex hormones, androgens, also play an important role in breast cancer. Androgens oppose the effects of estrogens in breast cancer cells, and inhibit their growth. Historically androgens were used to treat patients with advanced breast cancer, with good results, but the masculinising side effects (eg excess hair growth and acne) of these hormones led to a discontinuation of their use since the 1960s. The major objective of our current studies is to determine how androgens can stop breast cancer cells from growing by investigating the effects of the androgen receptor, which mediates the growth regulatory effects of androgens, in breast cancer cells. We believe that a better understanding of this signalling pathway could potentially lead to new treatments for breast cancer that act more specifically to inhibit cancer growth without the unpleasant side effects of androgenic drugs.Read moreRead less
Geldanamycin Derivatives: Novel Inhibitors Of Androgen Signalling For The Treatment Of Metastatic Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$316,320.00
Summary
Prostate cancer is a major health problem in Western Countries including Australia, where it is the most common newly diagnosed invasive cancer and the second leading cause of cancer deaths in men. Although there have been improvements in the diagnosis of prostate cancer, many men are still diagnosed with disease that already has or will spread to other sites such as lymph nodes and bone (ie metastatic disease). For those men with metastatic disease, reduction in testicular androgens by surgical ....Prostate cancer is a major health problem in Western Countries including Australia, where it is the most common newly diagnosed invasive cancer and the second leading cause of cancer deaths in men. Although there have been improvements in the diagnosis of prostate cancer, many men are still diagnosed with disease that already has or will spread to other sites such as lymph nodes and bone (ie metastatic disease). For those men with metastatic disease, reduction in testicular androgens by surgical or medical means (ie androgen ablation) is the only effective treatment option available. However, androgen ablation is only palliative, and treatment failure is common, with less than 20% of patients surviving more than 5 years. Recent evidence suggests that the androgen receptor, which mediates the growth regulatory effects of androgens, such as testosterone, is often defective in prostate tumour cells. These altered or mutant receptors may be inappropriately activated and stimulate tumour growth which may explain why treatment fails in a subset of men with advanced prostate cancer. The major objective of our current proposal is to evaluate a novel approach for the treatment of prostate cancer which, based upon our preliminary results, has the potential to be effective even if alterations are present in the androgen receptor. Specifically, we will examine the effectiveness of derivatives of a natural product, the antibiotic geldanamycin, to inhibit prostate tumour growth. The current studies therefore have the potential to result in improved treatment approaches for advanced prostate cancer.Read moreRead less
Androgen-regulated Proteins: Predictors Of Prostate Cancer Development And Progression
Funder
National Health and Medical Research Council
Funding Amount
$391,073.00
Summary
Use of PSA (prostate specific antigen) levels in blood to screen for prostate cancer has resulted in a) earlier detection of tumours and b) increased diagnosis of a premalignant disease of the prostate called PIN (prostatic intraepithelial neoplasia). PIN is thought to progressively change into cancer, which can invade the rest of the body. Growth of the cells of the prostate is regulated by male hormones called androgens. Small cancers localised to the prostate grow in response to androgens, bu ....Use of PSA (prostate specific antigen) levels in blood to screen for prostate cancer has resulted in a) earlier detection of tumours and b) increased diagnosis of a premalignant disease of the prostate called PIN (prostatic intraepithelial neoplasia). PIN is thought to progressively change into cancer, which can invade the rest of the body. Growth of the cells of the prostate is regulated by male hormones called androgens. Small cancers localised to the prostate grow in response to androgens, but larger cancers which have spread from the prostate grow steadily even after the androgen supply is cut off by removal of the testicles. In this project we will examine changes in the level of various proteins in the prostate, which are known to be produced in response to androgen, to see whether they discriminate: 1) those patients with PIN who will go on to develop prostate cancer, 2) those patients with small cancers within the prostate who progress to widespread cancer. We also propose to use a laser-controlled dissecting microscope to obtain pure populations of cancer cells from prostate tissues and then to isolate their DNA in order to: a) examine the DNA sequence of the protein which controls cellular growth in response to androgen (ie the androgen receptor) to see whether undesirable changes (mutations) have occurred in its structure during the development of the cancer, and b) identify proteins which mediate the effects of the androgen regulated proteins and control cancer development or spread. This will be done using the revolutionary technique of gene microarrays, where partial DNA sequences of approximately 4,000 different prostate genes are spotted onto small membrane filters, and which enable identification of genes that change in level with the onset of cancer and cancer spread. These 2 objectives will, in the case of a) prevent inappropriate treatment for prostate cancer, and b) identify targets for new treatments and for chemoprevention.Read moreRead less
Value Of Androgen Deprivation And Bisphosphonate Therapy In Patients Treated By Radiotherapy For Limited Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,757,375.00
Summary
Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation'[AD] therapy) can produce clinically important shrinkage of prostate cancer. Each year approximately 4000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Results from recent trials, including a large trial run in Au ....Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation'[AD] therapy) can produce clinically important shrinkage of prostate cancer. Each year approximately 4000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Results from recent trials, including a large trial run in Australia and New Zealand by the Trans-Tasman Radiation Oncology Group (TROG) between 1996 and 2000, suggest that 6 months AD will benefit many of these men if administered in conjunction with radiotherapy.The aim of this project is to run a further trial to find out whether 12 months of AD, after radiotherapy will prevent the need for further treatment and prolong more lives than only 6 months AD. Bisphosphonate treatment also offers important benefits to prostate cancer patients because it can increase bony stregth by increasing its density and can also arrest cancerous growth in bones. A further aim of the trial therefore is to determine whether 18 months of bisphosphonate therapy (BP) will prevent bone loss (osteoporosis) caused by AD, and also further reduce the risk of secondary bone cancer developing. This trial will involve recruitment of 1000 men across Australia and New Zealand over a 5 year period. When complete the trial will determine whether further treatment can be delayed and life prolonged in up to half of all men in whom treatment presently fails. This grant will support collection of patient data and the necessary quality checks to ensure that reliable conclusions can be drawn.Read moreRead less
Colorectal Cancer - Molecular Basis To Targeted Therapeutics.
Funder
National Health and Medical Research Council
Funding Amount
$19,818,386.00
Summary
Cancer of the colon and rectum is the most common form of cancer in Australia. Over 12,000 people are diagnosed each year with colorectal cancer (CRC) and more than one third of people will die of their disease. CRC is caused by mistakes in production of colon cells. Our research aims to discover new ways to detect CRC, develop smart drugs and nanoparticle delivery systems for destroying all types of CRC cells. We will then test our new anti-cancer drugs in clinical trials with CRC patients.
Clinical Trial Of Adjuvant Docetaxel And Doxorubicin For Node Positive Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$185,135.00
Summary
This project is investigating the optimal use of docetaxel and doxorubicin in the treatment of women with breast cancer and involved lymph nodes (N+). Every year 3000 women in Australia, and over 400,000 worldwide are newly diagnosed with N+ breast cancer. Using available treatments more than 60% of these (5 per day in Australia, 4,500 each week worldwide) will die from breast cancer. The efficacy of adjuvant chemotherapy in early breast cancer is well established by the international overview c ....This project is investigating the optimal use of docetaxel and doxorubicin in the treatment of women with breast cancer and involved lymph nodes (N+). Every year 3000 women in Australia, and over 400,000 worldwide are newly diagnosed with N+ breast cancer. Using available treatments more than 60% of these (5 per day in Australia, 4,500 each week worldwide) will die from breast cancer. The efficacy of adjuvant chemotherapy in early breast cancer is well established by the international overview conducted by the Early Breast Cancer Trialist's Collaborative Group (EBCTCG). They have demonstrated the efficacy of adjuvant chemotherapy on reducing mortality and recurrence rates, but current regimens are far from optimal. Docetaxel (Taxotere), a new agent, has effectiveness and manageable side effects in the treatment of advanced breast cancer patients, and can plausibly improve outcomes for patients with early N+ breast cancer by optimal integration into current adjuvant chemotherapy regimens. This clinical trial is designed to compare whether it is advantageous to use docetaxel and-or doxorubicin in combination or sequentially with other currently available chemotherapy drugs.Read moreRead less
The Importance Of VEGF-D, An Angiogenic Protein, For Lymphangiogenesis, Tumor Growth And Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Tumors attract blood vessels to obtain the nutrients for growth. Furthermore, the presence of blood vessels in a tumor enables tumor cells to enter the bloodstream and spread to distant parts of the body - a process known as metastatis that is the major cause of death in cancer patients. The growth of blood vessels - angiogenesis - is the mechanism by which tumors attract the vasculature. The capacity to block tumor angiogenesis would be of great benefit in the clinic as it would restrict both t ....Tumors attract blood vessels to obtain the nutrients for growth. Furthermore, the presence of blood vessels in a tumor enables tumor cells to enter the bloodstream and spread to distant parts of the body - a process known as metastatis that is the major cause of death in cancer patients. The growth of blood vessels - angiogenesis - is the mechanism by which tumors attract the vasculature. The capacity to block tumor angiogenesis would be of great benefit in the clinic as it would restrict both the growth and spread of tumors. Tumor cells attract blood vessels by secreting angiogenic growth factors that stimulate the proliferation of endothelial cells - the cells that form the inner lining of blood vessels. These Vascular Endothelial Growth Factors (VEGFs) are proteins. One VEGF, namely VEGF-D, was discovered in our laboratory at the Melbourne Branch of the Ludwig Institute for Cancer Research. VEGF-D stimulates the growth of blood vessels and possibly lymphatic vessels and is present in the most common human cancers including malignant melanoma and cancer of the breast and lung. We hypothesize that angiogenesis in some tumors is dependent on VEGF-D. Moreover, VEGF-D secreted by tumor cells may stimulate growth of lymphatic vessels - lymphangiogenesis. As metastatic spread often occurs via the lymphatic vessels, tumor lymphangiogenesis induced by VEGF-D may contribute to metastasis. The purpose of the research project is to determine the role of VEGF-D in tumor angiogenesis and lymphangiogenesis. Firstly we will thoroughly characterize the localization of VEGF-D in human cancer. Secondly, we will test VEGF-D for lymphangiogenic activity. Thirdly, the growth and metastatic spread in mice of tumors overexpressing VEGF-D will be analysed. Finally, aspects of VEGF-D biochemistry and gene regulation will be studied to develop strategies for inhibition of VEGF-D action in cancer.Read moreRead less
Acute myeloid leukaemia (AML) is a major health problem with only about one third of patients being cured. In addition therapies have changed little over the last 20 years. However there is optimism that with greater knowledge of the biochemical changes in AML that are caused by genetic mutations, more effective treatments will be developed. This project therefore aims to increase understanding of the biochemical interplay between two proteins called c-Cbl and Flt3 that are altered in AML.
The Role Of The M6P-IGF-II Receptor In Regulating Cellular Function
Funder
National Health and Medical Research Council
Funding Amount
$276,598.00
Summary
We will investigate if a cell surface protein that suppresses the growth of breast cancer cells is also able to reduce the cancer spreading to other organs. The part of the molecule required for this effect will be identified so that smaller forms of the protein can be tested to inhibit tumour spread. Genes and proteins altered by the presence of this protein in breast cancer cells will be examined to determine how the protein suppresses tumours and to identify novel tumour markers.
MC1R Polymorphisms Associated With Skin Cancer Risk Phenotypes
Funder
National Health and Medical Research Council
Funding Amount
$519,715.00
Summary
Sunsmart campaigns are a unifying element in the lives of many Australians who wish to ensure protection against the damaging effects of UV rays in sunlight. Although it is evident that lighter skin colours are more susceptible to sun damage, the relationship between sun exposure, skin type and melanoma formation is less clear. It is essential to understand the complex interactions that give rise to melanoma and to identify the genes in individuals that are responsible for this increased risk.