This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as d ....This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as developing new, customized medical treatments for men.Read moreRead less
The Role Of A Protease Activated Receptor System In Prostate Cancer Bone Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$582,204.00
Summary
Prostate cancer is one of the most significant health issues for men. This disease occurs because certain proteins start to function abnormally. Our focus is on a protein called PAR2, present on the surface of prostate cancer cells and bone cells, which we propose helps cancer cells to spread to bone. In our project, we aim to understand how this happens so that we can develop ways to block prostate cancer metastasis to bone.
The Ghrelin Axis As A Target For Prostate Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$585,497.00
Summary
Prostate cancer affects one in nine Australian men in their lifetime, and although there have been great advances in treatments, advanced prostate cancer remains incurable. Current treatments often lead to side effects which affect quality of life. We have found that the appetite hormone, ghrelin, stimulates prostate cancer cell growth and may be a useful target for prostate cancer therapy. We predict that targeting the ghrelin axis will prevent some of the side effects of other treatments that ....Prostate cancer affects one in nine Australian men in their lifetime, and although there have been great advances in treatments, advanced prostate cancer remains incurable. Current treatments often lead to side effects which affect quality of life. We have found that the appetite hormone, ghrelin, stimulates prostate cancer cell growth and may be a useful target for prostate cancer therapy. We predict that targeting the ghrelin axis will prevent some of the side effects of other treatments that reduce quality of life for patients.Read moreRead less
Proteolytic And Non-proteolytic Roles For PSA And Related Kallikrein Serine Proteases In Prostate Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$480,128.00
Summary
Prostate cancer is the most frequently occurring cancer in men in Western countries. Prostate cancer metastasis to bone and other organs is the painful end stage of this disease. The level of prostate specific antigen (PSA) in blood is often used as a marker of prostate cancer. PSA is one of 15 related enzymes in the kallikrein family of enzymes, which may be involved in breakdown of the tissue that surrounds cells in the prostate. As prostate cancer metastasis first requires spread from the pri ....Prostate cancer is the most frequently occurring cancer in men in Western countries. Prostate cancer metastasis to bone and other organs is the painful end stage of this disease. The level of prostate specific antigen (PSA) in blood is often used as a marker of prostate cancer. PSA is one of 15 related enzymes in the kallikrein family of enzymes, which may be involved in breakdown of the tissue that surrounds cells in the prostate. As prostate cancer metastasis first requires spread from the primary tumour and out of the prostate, it is possible that high production of these kallikrein enzymes by prosttae cancer cells may increase the ability of these cells to metastasise. In previous work, we have studied prostate cancer cells that we have engineered to make the kallikreins, PSA and kallikrein 4. Those cells that make PSA or kallikrein 4 are more elongated in shape and are better able to move across a porous barrier. Another important change is that these cells stop producing a protein that is usually found on the surface of these cells and is important for helping cells to stay attached to each other. When this protein is lost, these tumour cells no longer stay attached to each other and are more likely to move out of the prostate and spread into other parts of the body. The changes we observed in the cells that produce PSA and kallikrein 4 are typical of these more aggressive cancer cells. In this project, we will look at how PSA and kallikrein 4 cause the cells to undergo these changes. The majority of prostate cancer deaths arise from cancer that has spread from the primary tumour and out of the prostate capsule. This project aims to further understand the causes of prostate cancer spread and metastasis. This is a vital research priority if we are to address the mortality associated with prostate cancer metastasis and may lead to new treatment approaches for advanced metastic prostate cancer.Read moreRead less
The Essential Role Of Androgen Receptor Signalling In Prostate Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$714,375.00
Summary
An urgent objective in prostate cancer clinical practice is to better predict disease course at diagnosis and to identify patients likely to develop metastatic (lethal) disease. We aim to identify clinically-relevant genes - gene pathways that are important in prostate cancer development and progression and which can be used to improve prediction of patient outcome. Prostate cancer management can be improved by tailoring treatments for individual patients.
Control Of Musculoskeletal Function And Body Composition By Androgens In Men
Funder
National Health and Medical Research Council
Funding Amount
$594,248.00
Summary
Male sex hormone or androgen deficiency (AD) is a common, but under-diagnosed condition. AD decreases general well being and contributes to muscle weakness, bone fragility and weight gain. By using cutting edge imaging and molecular technologies, we will help to explain the underlying mechanisms of how AD leads to these negative effects. This should ultimately lead to reduction of adverse outcomes of AD, which include fractures and cardiovascular events.
Kallikrein Gene Variants In Prostate Cancer: Analysis Of Gene Regulation And Diagnostic/Prognostic Use
Funder
National Health and Medical Research Council
Funding Amount
$486,801.00
Summary
Prostate cancer is the most common male cancer in Australia. However, early detection through screening programs has proven challenging, and about 30% of the 10,000 new cases diagnosed annually already have advanced disease. Hence, there is a fundamental need for increased basic research in prostate cancer etiology (cause) and tumour biology, and a critical requirement for methods that will assist in earlier detection of the disease and predict progression. A family of proteins called kallikrein ....Prostate cancer is the most common male cancer in Australia. However, early detection through screening programs has proven challenging, and about 30% of the 10,000 new cases diagnosed annually already have advanced disease. Hence, there is a fundamental need for increased basic research in prostate cancer etiology (cause) and tumour biology, and a critical requirement for methods that will assist in earlier detection of the disease and predict progression. A family of proteins called kallikreins (including prostate specific antigen, PSA) are often associated with clinical features of prostate cancer. We will characterise genetic variants (polymorphisms) in kallikrein genes that are consistently over-produced in prostate cancer, and determine whether they cause more protein to be produced in cells grown in the laboratory and in tumour tissue, and-or give rise to different expression products or splice variants. We will use bioinformatics (computer programs) to characterise published kallikrein gene sequences and to examine them for genetic variants that might be related to changes in gene expression or to splice variants. We will then use a case-control study, involving 1200 men with prostate cancer and 1200 healthy men, to determine whether these gene variants are associated with an increased risk of prostate cancer or with clinical aspects of the disease. Finally, we will examine the functional significance of the gene variants. This project represents an important and novel combination of molecular biology with the study of clinical disease at the population level, in the relatively new field of molecular epidemiology. It will clarify the role of kallikrein gene variants in prostate cancer risk and progression. The technologies may ultimately prove useful clinically for diagnosis of prostate cancer or for monitoring of treatment and prognosis, and hopefully will assist in clinical decision-making.Read moreRead less
Effects Of Replacement And Withdrawal Of Testosterone In Human Males On Muscle, Bone And Fat
Funder
National Health and Medical Research Council
Funding Amount
$156,682.00
Summary
Male sex hormone or androgen deficiency (AD) is a common, but under-diagnosed condition. AD decreases well being and contributes to muscle weakness, bone fragility and weight gain. Cutting edge technology will be used to help explain how AD may relate to these negative effects, particularly on muscle function. Given the importance of aging, frailty, osteoporosis and obesity, understanding the role of hormones in these conditions may have major implications for prevention and treatment.