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Characterisation Of A Novel Prostate-expressed Kallikrein-like Protease And Its Target Proteins
Funder
National Health and Medical Research Council
Funding Amount
$724,544.00
Summary
Prostate disease is common in most men in later life and can affect their quality of life adversely. The primary conditions are benign prostatic hyperplasia or BPH and prostate cancer. Symptoms of BPH affect between 50-70% of men over the age of 50 and prostate cancer is now the most common internal cancer diagnosed in men. More importantly, prostate cancer is the second most common cause of cancer deaths. We don't yet fully understand exactly how these diseases occur but the male sex hormones o ....Prostate disease is common in most men in later life and can affect their quality of life adversely. The primary conditions are benign prostatic hyperplasia or BPH and prostate cancer. Symptoms of BPH affect between 50-70% of men over the age of 50 and prostate cancer is now the most common internal cancer diagnosed in men. More importantly, prostate cancer is the second most common cause of cancer deaths. We don't yet fully understand exactly how these diseases occur but the male sex hormones or androgens are known to play an important role. Prostate specific antigen or PSA has become widely accepted as a useful tool in helping to detect prostate cancer and then monitoring the disease. PSA, which is regulated by androgens, is an enzyme that either activates or breaks down many proteins that are important in both the normal function of the prostate and in the development of cancer. PSA belongs to a family of enzymes called the kallikreins. We have recently discovered a new member of this family that, like PSA, is also found in the prostate. We have called this new enzyme, K6, as it is the sixth member of this family to be identified. So , this project is about characterising this new K6 enzyme, finding out if it is also found in the prostates of men with BPH and prostate cancer, whether it is also regulated by androgens and what sort of proteins it may activate in these diseases. We will also compare these findings with what we know about PSA in these diseases. From these studies, we will not only understand more about this K6 enzyme and how it might be important in the prostate but also how it relates to PSA. These findings may ultimately lead to some new approaches in the detection and treatment for BPH and prostate cancer.Read moreRead less
Male Reproductive Health Including Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$727,685.00
Summary
My previous contributions to Andrology and Endocrinology of the Testis provide me with a significant breadth of expertise and a sustained record of contribution to Men’s Reproductive Health. My recent research effort has focused on Urology and prostate cancer. Through my prostate cancer research program, my overall strategy is to understand the biology of the prostate gland to enable the development of new therapies for prostate cancer, as well as for BPH (enlargement of the prostate) and prosta ....My previous contributions to Andrology and Endocrinology of the Testis provide me with a significant breadth of expertise and a sustained record of contribution to Men’s Reproductive Health. My recent research effort has focused on Urology and prostate cancer. Through my prostate cancer research program, my overall strategy is to understand the biology of the prostate gland to enable the development of new therapies for prostate cancer, as well as for BPH (enlargement of the prostate) and prostatitis (inflammation of the prostate gland).Read moreRead less
The Role Of Ghrelin And Growth Hormone Releasing Hormone In The Autocrine Regulation Of Prostate Cancer Cell Growth
Funder
National Health and Medical Research Council
Funding Amount
$240,990.00
Summary
Insulin-like growth factor-I (IGF-I) is an important growth factor with a major role in the growth and development of many normal and tumour cells. Its production is controlled by growth hormone (GH), released from the pituitary gland at the base of the brain. GH releasing hormone (GHRH), a hormone released from higher centres in the brain, regulates the production of GH itself and now it is recognised that a second pathway, the ghrelin-GH secretagogue receptor (GHS-R) axis is also important in ....Insulin-like growth factor-I (IGF-I) is an important growth factor with a major role in the growth and development of many normal and tumour cells. Its production is controlled by growth hormone (GH), released from the pituitary gland at the base of the brain. GH releasing hormone (GHRH), a hormone released from higher centres in the brain, regulates the production of GH itself and now it is recognised that a second pathway, the ghrelin-GH secretagogue receptor (GHS-R) axis is also important in regulating GH release. There is growing evidence that the GHRH-GH-IGF axis has a significant role in prostate cancer, but little is known about how this happens. We also have evidence that the ghrelin-GHS-R axis is involved in prostate cancer, as prostate cancer cell lines produce both ghrelin and the receptor through which it acts. Our preliminary studies show that ghrelin enhances cell growth in these cells. GHRH blocking agents (antagonists) are potential treatments for prostate cancer, as they slow the growth of prostate tumours. How they act is unclear, but they might interfere with a locally active GHRH pathway in the prostate. This study aims to explore the role of ghrelin and GHRH in prostate cancer. Since there is an increase in the use of GHRH, GH and-or IGF-I and potentially ghrelin for the treatment of a variety of medical conditions, including some in the aging male, the need for a fuller understanding of the role of this axis in prostate cancer is increasingly important. Such information will lead to a deeper understanding of the actions of ghrelin and GHRH and provide potential opportunities for design of new therapies for prostate and other GH-IGF-responsive tumours.Read moreRead less
Characterising The Beneficial Effects Of Estrogen On The Prostate Gland
Funder
National Health and Medical Research Council
Funding Amount
$594,722.00
Summary
Prostate cancer is hormonally regulated and currently managed by androgen ablation. This application seeks to study the potential benefits of estrogen action for the treatment of prostate disease, including PCa. We will show estrogen hormone action causes prostatic cell death, targeting the stem-progenitor cells so the treated prostatic tissue does not regenerate. This project will provide pre-clinical proof of the efficacy of estrogenic compounds as a potential therapy for prostate disease.
Role Of Pacemaker Cells In The Generation Of Slow Wave Activity In The Prostate Gland
Funder
National Health and Medical Research Council
Funding Amount
$231,500.00
Summary
The prostate gland commonly enlarges in ageing males resulting in a condition known as benign prostatic hyperplasia which is poorly understood. Because of the strategic position of the prostate, its enlargement physically compresses the segment of the urinary system passing through it causing inconvenient and distressing symptoms, such as difficulty and hesitancy in urination, which often require surgical or medical intervention. Indeed patients diagnosed with benign prostatic hyperplasia are of ....The prostate gland commonly enlarges in ageing males resulting in a condition known as benign prostatic hyperplasia which is poorly understood. Because of the strategic position of the prostate, its enlargement physically compresses the segment of the urinary system passing through it causing inconvenient and distressing symptoms, such as difficulty and hesitancy in urination, which often require surgical or medical intervention. Indeed patients diagnosed with benign prostatic hyperplasia are often treated with pharmacological agents that reduce the size of the prostate or relax the prostate and bladder, thus relieving some of the symptoms. However, the precise cellualr mechanisms by which many of these drugs mediate their effects have not been confirmed. Moreover, although previous studies of the prostate gland have clearly established many of the basic properties of the tissue, there is currently a lack of information regarding the prostate gland at a cellular level. We have recently identified a specialised group of 'interstitial cells' in the prostate gland, which resemble the well-described 'interstitial cells of Cajal' in the gut. In the gut, these cells perform a wide variety of functions including the initiation of contractile activity. Interstitial cells are also thought to play a role in diseases of the bowel. This project aims to investigate the role of the interstitial cells in the functioning of the prostate gland. In addition, the effects of age and hormones on the interstitial cells will be considered, which may lead to a better understanding of conditions such as benign prostatic hyperplasia. Finally, identifying nerve-released substances that may affect the activity of these cells may also help identify alternative targets for treatment of benign prostatic hyperplasia.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
Hormonal Modulation Of Prostatic Growth And Contractility
Funder
National Health and Medical Research Council
Funding Amount
$324,237.00
Summary
With increasing age human males are likely to develop benign prostatic hyperplasia (BPH), a disorder characterized by urethral obstruction due to an increase in size of the prostate gland. Drug treatments of this condition are not entirely satisfactory and the current project is to examine the mechanisms by which the prostate grows and occludes the urethra. We will use human prostate cells grown in artificial conditions to determine which hormones alter the types of cells and especially examine ....With increasing age human males are likely to develop benign prostatic hyperplasia (BPH), a disorder characterized by urethral obstruction due to an increase in size of the prostate gland. Drug treatments of this condition are not entirely satisfactory and the current project is to examine the mechanisms by which the prostate grows and occludes the urethra. We will use human prostate cells grown in artificial conditions to determine which hormones alter the types of cells and especially examine those cells which can contract as these may be of critical importance in the urethral obstruction. We hypothesize that an enzyme called protein kinase C may be implicitly involved in both cell growth and contractile function and we will examine the role of protein kinase C with a view ultimately to develop drugs which may interfere with this process and therefore aid in non-surgical treatment of the condition.Read moreRead less
Using Genetically Manipulated Mice To Study The Pathophysiologic Consequences Of Castration-induced Prostatic Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$455,250.00
Summary
Prostate cancer is the second leading cause of cancer death among Australian men. The disease is incurable once it spreads beyond the confines of the prostate gland. Hormonal treatments can keep the cancer at bay for a number of years until they are no longer effective. Hormonal treatments cause shrinkage of prostate cancer because they interfere the function of the male hormone, testosterone, which encourages growth of prostate cancer. Hence, there is a need for other treatments that may improv ....Prostate cancer is the second leading cause of cancer death among Australian men. The disease is incurable once it spreads beyond the confines of the prostate gland. Hormonal treatments can keep the cancer at bay for a number of years until they are no longer effective. Hormonal treatments cause shrinkage of prostate cancer because they interfere the function of the male hormone, testosterone, which encourages growth of prostate cancer. Hence, there is a need for other treatments that may improve the quality of life and survival of prostate cancer patients. It appears that a cancer patient can make immune cells known as T cells, which can recognise his own tumour but which are prevented from destroying the tumour. Using a mouse model of prostate cancer, we wish to understand how prostate tumours act to prevent immune destruction in circumstances that are common to the treatment of human prostate cancer. For example, hormonal treatments produce dead prostate cancer cells that will be cleared by the body's professional scavenger cells in a way that suppresses an active immune response against the tumour. To learn how the removal of dead cells suppresses the immune response, we propose to perturb the normal clearance of dead prostate cells by at least two means. First, we will study mice that have an inherited deficiency in the removal of dead cells. Second, these mice will be given a growth factor to produce an excess of immune stimulating cells known as dendritic cells in the prostate gland. The dendritic cell is the main type of cell that initiates immune responses. We will investigate whether the greater number of dendritic cells, which were put into the prostate gland by the growth factor, can remove the dead prostate cells in a way that excites rather than suppresses the anti-tumour immune response. Positive results obtained from these studies may lead to the design of new treatments for advanced prostate cancer.Read moreRead less