The Clinicial Centre Of Research Excellence At The Jean Hailes Foundation: For The Study Of Women's Health
Funder
National Health and Medical Research Council
Funding Amount
$2,000,000.00
Summary
The major health issues affecting women from the mid-reproductive years include depression, disorders of mood and sexual function, and breast cancer, with cardiovascular disease, osteoporosis, and osteoarthritis becoming increasingly prevalent with age. Linking each of these are their known or probable causal associations with oestrogens and androgens. This Centre will provide an opportunity for comprehensive and multidisciplinary research into the role of oestrogens and androgens in these disor ....The major health issues affecting women from the mid-reproductive years include depression, disorders of mood and sexual function, and breast cancer, with cardiovascular disease, osteoporosis, and osteoarthritis becoming increasingly prevalent with age. Linking each of these are their known or probable causal associations with oestrogens and androgens. This Centre will provide an opportunity for comprehensive and multidisciplinary research into the role of oestrogens and androgens in these disorders.Read moreRead less
Progesterone Signalling In Normal And Malignant Breast Relies On Chromosomal Positioning Of Progesterone Receptor
Funder
National Health and Medical Research Council
Funding Amount
$569,346.00
Summary
The cell nucleus carries genetic information that directs cell function. The nucleus is organised into compartments, which are altered in breast cancer, leading to altered function. The ovarian hormone progesterone acts via a receptor, which clumps into foci in the nucleus when active. In cancers, this clumping is disrupted. In this project we will work out how these foci control cell function, and how this leads to the specific functions of progesterone in normal breast and breast cancers.
Significance And Mechanisms Of Relative Progesterone Receptor Isoform Expression In Normal And Malignant Target Tissues
Funder
National Health and Medical Research Council
Funding Amount
$737,248.00
Summary
The ovarian hormone progesterone has a pivotal role in normal female physiology, in the uterus and ovary; in the mammary gland and in the brain. Human progesterone receptor, through which progesterone exerts its physiological effects, is expressed as two receptor proteins (PRB and PRA). These are identical except that PRA is shorter than PRB and present knowledge supports a role for both proteins in normal physiology. PR is also expressed in breast cancers, where one of its roles may be to inhib ....The ovarian hormone progesterone has a pivotal role in normal female physiology, in the uterus and ovary; in the mammary gland and in the brain. Human progesterone receptor, through which progesterone exerts its physiological effects, is expressed as two receptor proteins (PRB and PRA). These are identical except that PRA is shorter than PRB and present knowledge supports a role for both proteins in normal physiology. PR is also expressed in breast cancers, where one of its roles may be to inhibit oestrogen action and thereby limit tumour growth. A tumour which lacks PR would lack this capacity and this may be clinically associated with poorer prognosis. We have shown that primary tumours lacking PR are more likely to progress to secondary sites and this may provide support for this possibility. In addition, we have shown that over-expression of one PR isoform in breast cancers can be as biologically significant as lack of PR: tumours expressing predominantly one isoform were associated with poorer prognosis features.This project is aimed at investigating how PRA and PRB exert their effects on the range of progesterone targets in normal and malignant tissues. We will do this by determining whether PR isoforms are located in the same nuclear site in cells expressing one versus cells expressing both PR isoforms, to explore whether the proteins act separately in target cells. We will then ask whether the PR activity is different if only one isoform (PRA or PRB) is expressed versus both PRA and PRB. Another major issue which will be explored is the way in which the relative levels of PRA and PRB are controlled, and whether this is altered in breast cancers. Finally, we will explore the clinical significance of PR isoform expression. If achieved, the aims of this project will delineate the individual and combined action of - THIS FIELD WAS OVER 2000 CHARS, TEXT WAS REMOVED TO LODGE THE APPLICATION. A COPY OF THE ORIGINAL APPLICATION IS AVAILABLE FROM ARCHIVE-HARDCOPYRead moreRead less
LKB1 - The Link Between Obesity And Breast Cancer In Postmenopausal Women
Funder
National Health and Medical Research Council
Funding Amount
$292,216.00
Summary
Obesity is a worldwide epidemic affecting 60% of Australians and is linked to many diseases including breast cancer. Changes in sex hormone levels during menopause may cause these diseases. The focus of this proposal is to determine the role of the sex hormones to regulate a protein (LKB1) involved in both fat metabolism and cancer. This research will benefit the ageing population by making a contribution toward generating therapeutics to combat obesity and breast cancer.
Progesterone Regulation Of Epithelial Cell Lineages In The Breast
Funder
National Health and Medical Research Council
Funding Amount
$534,186.00
Summary
The ovaries play a pivotal role in breast cancer in ways that are unknown. Progesterone increases breast cancer risk, and response to hormonal treatments is critically associated with tumour progesterone receptor content, but how it does this is unknown. We will pursue our findings that progesterone influences cell types in the breast similar to those that become cancerous. This will uncover critical vulnerabilities in breast cancer development and potential targets for prevention and treatment.
ELF5 Integrates Prolactin And Progestin Control Of Mammary Gland Development Via Regulation Of Progenitor Cells.
Funder
National Health and Medical Research Council
Funding Amount
$720,515.00
Summary
Elf5 may act as a master-regulator of mammary cell growth during pregnancy. We will demonstrate that Elf5 can replace the requirement for prolactin and progesterone to trigger mammary development and we will determine the stem or progenitor cells Elf5 acts on. Finally we will apply this knowledge to breast cancer cell lines to discover what role Elf5 plays in breast cancer. These experiments have the potential to establish Elf5 as a new therapeutic target for the treatment of breast cancer.
Functional Effects Of Polymorphic Variation Of The Aromatase (CYP19) Gene On Enzyme Activity:relationship To Disease
Funder
National Health and Medical Research Council
Funding Amount
$237,708.00
Summary
After menopause, oestrogen synthesis changes from an ovarian to an adipose source by concersion of androgens to estrogens, a process catalyzed by aromatase, the product of the CYP19 gene. We will generate mutants of the CYP19 gene that we have previously found in humans by site-directed mutagenesis and observe the effects of these mutants on aromatase function. This research will help with diagnosis and treatment of breast and other cancers and osteoporosis in humans .
Structural And Functional Investigation Into The Cooperation Of IGF And Vitronectin-binding Receptors In Cell Migration
Funder
National Health and Medical Research Council
Funding Amount
$239,250.00
Summary
Breast cancer is the most commonly diagnosed form of cancer in Australian women, accounting for 26% of diagnosed cancers and 21% of cancer deaths among women. One in fourteen Australian and one in nine women worldwide will develop breast cancer in their lifetime. Significantly, approximately one in four of those diagnosed will die from their disease. The primary factor that determines survival is early diagnosis and treatment. Indeed, the primary tumour itself rarely causes death. Rather, the di ....Breast cancer is the most commonly diagnosed form of cancer in Australian women, accounting for 26% of diagnosed cancers and 21% of cancer deaths among women. One in fourteen Australian and one in nine women worldwide will develop breast cancer in their lifetime. Significantly, approximately one in four of those diagnosed will die from their disease. The primary factor that determines survival is early diagnosis and treatment. Indeed, the primary tumour itself rarely causes death. Rather, the dissemination of tumour cells to remote sites and the establishment of secondary tumours in critical sites in the body is the major mechanism of mortality. An understanding of the processes that lead to the establishment of secondary tumour bodies and strategies to halt the spread of cancer beyond the primary site are therefore highly valuable. Two factors thought to be pivotal in breast cancer metastasis are altered interactions with the microenvironment surrounding cells and exposure to increased levels of hormones and growth factors, such as the insulin-like growth factors (IGFs). We have recently found that IGFs form complexes with a protein called vitronectin, found in the microenvironment, and these complexes can stimulate increased migration of breast cancer cells. This project will examine the interaction of IGF and VN in stimulating cell migration and in particular, aims to identify the genes involved in the enhanced cell migration. In addition we will examine how the IGF:vitronectin complexes form and how these in turn interact with receptors on the surface of the cell. The data obtained will provide critical fundamental information that is necessary to develop targeted therapies for the treatment and control of breast cancer.Read moreRead less