Regulation And Functional Roles Of ADAM 10 Protease In Prostate Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Prostate cancer is the second most common cause of cancer death among western males. Most deaths from prostate cancer are due to the development of secondary tumours (metastases) in other body organs. Metastasis involves actions of enzymes, (called metalloproteinases) which can break down the tissue structure surrounding tumour cells, and actions of a family of proteins (called integrins)that control how cells stick to each other or to other tissue components. Both these actions allow tumour cel ....Prostate cancer is the second most common cause of cancer death among western males. Most deaths from prostate cancer are due to the development of secondary tumours (metastases) in other body organs. Metastasis involves actions of enzymes, (called metalloproteinases) which can break down the tissue structure surrounding tumour cells, and actions of a family of proteins (called integrins)that control how cells stick to each other or to other tissue components. Both these actions allow tumour cells to break free from their original tissue positions, walk through surrounding tissue and deposit themselves at distant sites to form a secondary tumour. In this research we are looking at a protein, called ADAM-10, which belongs to a family of proteases, the ADAMs, which contain both A Disintegrin And Metalloprotease activity, hence their name. Our data suggest ADAM-10 is produced in large quantities by prostate cancer cells but can be differently located within these cells it sits on the outer membrane of normal or benign prostate glands but re-locates to the cell nucleus in high grade prostate cancer cells. We have also identified ADAM-10 protein in small membrane fragments that are commonly shed from prostate cancer cells. Preliminary evidence suggests that levels of ADAM-10 in each of these locations is regulated by growth factors and-or the male sex hormone, androgen, key hormones involved in prostate cancer growth and progression. We do not yet know what actions ADAM-10 has when it occurs in these different locations but believe the membrane form will be involved in metastasis, with the nuclear form being involved in regulating events within the nucleus, the control centre for the cell. This grant application aims to build on our novel observations and investigate the underlying mechanisms of ADAM-10 hormonal regulation and function. If proven, these issues may be important for the development, progression and future treatment of prostate cancer.Read moreRead less
Mechanisms Regulating Ribosomal Gene Transcription During Cardiac Hypertrophy
Funder
National Health and Medical Research Council
Funding Amount
$436,540.00
Summary
After birth the muscle cells of the human heart stop dividing. Subsequent growth of the heart is achieved by increasing the size of preexisting muscle cells. This process is referred to as hypertrophic growth and accounts for the difference in size between the juvenile and adult human heart. However later on in life, particularly during cardiovascular disease states such as high blood pressure, the adult heart may grow above and beyond that normally expected. This uncontrolled growth, results ev ....After birth the muscle cells of the human heart stop dividing. Subsequent growth of the heart is achieved by increasing the size of preexisting muscle cells. This process is referred to as hypertrophic growth and accounts for the difference in size between the juvenile and adult human heart. However later on in life, particularly during cardiovascular disease states such as high blood pressure, the adult heart may grow above and beyond that normally expected. This uncontrolled growth, results eventually in a sick heart which is no longer able to function properly. Such inappropriate growth of the heart is a component of many human cardiovascular disease states and contributes significantly to human morbidity and mortality. Regardless of the cause, hypertrophic growth of the heart results from increased protein synthesis. This is controlled by increased synthesis of ribosomes, the machinery responsible for making proteins. During the course of our studies investigating the regulation of heart muscle cell hypertrophy we have demonstrated that changes in the activity of a protein termed UBF, which is involved in regulating synthesis of ribosomes, correlates with the rate of hypertrophic growth. We have also demonstrated that if we artificially increase the amount of UBF protein in heart muscle cells we can stimulate hypertrophy. These finding indicate that alterations in the amount or activity of UBF may link hypertrophic stimuli to increased growth of the heart. The work described in this study proposes to investigate the signals and pathways which regulate the amount and activity of the UBF protein during hypertrophic growth of heart muscle cells. We hope by understanding the mechanisms by which the heart grows we will be able to design rational therapeutic regimens to combat the abnormal growth of the heart that often accompanies human cardiovascular disease states such as high blood pressure.Read moreRead less