Hormonal Influences In The Pathogenesis Of Ovarian Tumours
Funder
National Health and Medical Research Council
Funding Amount
$264,601.00
Summary
Ovarian cancer is one of the most common malignancies affecting the female reproductive system. We have found that two types of tumour of the ovary produce a hormone called inhibin; these tumours are also known to produce the steroid hormone estrogen. In these studies we are seeking to determine the genetic changes in the tumours that cause the production of these hormones. We suspect that these genetic changes are also the same changes which contribute to the development of the cancers. In orde ....Ovarian cancer is one of the most common malignancies affecting the female reproductive system. We have found that two types of tumour of the ovary produce a hormone called inhibin; these tumours are also known to produce the steroid hormone estrogen. In these studies we are seeking to determine the genetic changes in the tumours that cause the production of these hormones. We suspect that these genetic changes are also the same changes which contribute to the development of the cancers. In order to identify these genes we will draw on our knowledge of the genes that are important in the controlof growth and hormone secretion in normal ovarian cells. To assist this molecular analysis we will use two ovarian cell lines in culture that have many of the features of the primary tumours including inhibin secretion. We will also use new techniques to scan over 500 genes involved in tumours in general to see whether we detect any unusual or distinctive patterns in this sub-group of tumours. A genome wide scanning technique will be used to seek changes in the DNA of the tumours, inparticular loss of genetic material or amplification of regions. Identification of the genetic changes within these tumours should enable better systems of classification, enhance prognostication and provide specific targets for the development of appropriate treatment strategies.Read moreRead less
Kallikrein Proteases Have Key Functional Roles In Peritoneal Invasion And Chemoresistance In Epithelial Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$815,541.00
Summary
Only 30% of ovarian cancer patients with advanced disease survive for 5 years. This is because the cancer quickly spreads into the abdominal cavity and often becomes resistant to chemotherapy. We aim to use a new 3D culture system, mouse models and novel inhibitors to study the roles of 4 kallikrein enzymes in these events. The outcomes from this study will lead to a better understanding of the role of kallikreins in ovarian cancer and may lead to new treatment approaches.
The Role Of Insulin Hypersecretion In Beta Cell Dysfunction In Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$318,622.00
Summary
The treatment of diabetes involves the use of drugs that stimulate the release of insulin from the pancreas to reduce the high blood sugar levels. However, we believe that while in the short term this is a good strategy, in the long-term it damages the cells that produce insulin leading to a worsening state of diabetes. It is the aim of this application to understand the mechanisms by which the insulin producing cells are damaged when forced to oversecrete insulin.
Evaluation Of The Therapeutic Potential Of SFTI-FCQR, A Novel Kallikrein 4-specific Protease Inhibitor
Funder
National Health and Medical Research Council
Funding Amount
$167,303.00
Summary
Prostate and ovarian cancers are on the rise in Australia's ageing population. In previous work, we have studied prostate and ovarian cancer cells that we have engineered to make the protease KLK4. These cells show signs associated with aggressive tumours and in particular may have some of the changes found in cancer cells that spread from their site of origin (metastasize). In this project, we will look at a drug-like molecule that we have designed with the aim of blocking the activity of KLK4.
This project will test the proposal that rising follicle-stimulating hormone (FSH) levels in ageing females directly accelerate reproductive failure and bone loss , major public health issues due to delayed childbearing and our rising ageing population. We have developed a unique mouse model with elevated FSH levels that cause premature female infertility. We will now use this model to determine the direct effects of high FSH upon ovarian and uterine function, as well as bone loss with age.
Defining Vascular Health And Modifiable Risk Factors Over Time In Childhood.
Funder
National Health and Medical Research Council
Funding Amount
$368,061.00
Summary
Adult heart disease and strokes have their origin in childhood. We will follow healthy children and children with diabetes or obesity over 2 years during puberty when blood vessel disease is detectable. We will define which are the most sensitive markers of blood vessel disease and the continuum of risk factors. This is essential knowledge to best define children at risk and to test clinical and public health interventions.
Reproduction is controlled by the brain through the hormone gonadotropin releasing hormone (GnRH). Leptin from fat acts on the brain to 'inform' GnRH cells of metabolic state; low levels signal lack of energy stores and suppress reproduction. Leptin treatment of lean individuals restores reproductive function, but the mechanism is not clear. Our data implicate the melanocortins as a means of transmitting information on metabolic state to GnRH cells and the project investigates this pathway.