Peroxisome Proliferator-activated Receptors: A Role In The Promotion Of Mammary Gland Carcinogenesis By Dietary Fat.
Funder
National Health and Medical Research Council
Funding Amount
$188,702.00
Summary
Breast cancer is a leading cause of death in Australian women. While some women have a hereditary predisposition to breast cancer, for most women a variety of factors are responsible for their disease. One thing that appears to be important as a cause of breast cancer is our diet. There are many components of the diet that may play a role. One important factor is the amount and type of fat that we consume. Just how dietary fat causes an increase in breast cancer is not known. What this project a ....Breast cancer is a leading cause of death in Australian women. While some women have a hereditary predisposition to breast cancer, for most women a variety of factors are responsible for their disease. One thing that appears to be important as a cause of breast cancer is our diet. There are many components of the diet that may play a role. One important factor is the amount and type of fat that we consume. Just how dietary fat causes an increase in breast cancer is not known. What this project aims to achieve is an understanding of how dietary fat and breast cancer are related. If we can understand this then we can rationally design treatments or a preventative strategy.Read moreRead less
Isolation And Characterisation Of Mouse Mammary Stem And Progenitor Cells
Funder
National Health and Medical Research Council
Funding Amount
$540,202.00
Summary
We have discovered the rare adult stem cell from which all breast epithelial tissue is formed. A single stem cell was found to be capable of giving rise to various cell types in the breast, including the secretory units that produce milk and the ductal cells that transmit milk to the nipple. These cell types are responsible for the majority of human breast tumours. However, the precise 'cell of origin' from which cancers ultimately develop is not known. We recently also found that the stem cell ....We have discovered the rare adult stem cell from which all breast epithelial tissue is formed. A single stem cell was found to be capable of giving rise to various cell types in the breast, including the secretory units that produce milk and the ductal cells that transmit milk to the nipple. These cell types are responsible for the majority of human breast tumours. However, the precise 'cell of origin' from which cancers ultimately develop is not known. We recently also found that the stem cell population is expanded in at least one model of mammary tumours, suggesting that some tumours may arise from the breast stem cell itself. Using mouse models and cellular assays, our aim is to characterise, for the first time, the hierarchy of stem, progenitor ('daughter cells') and mature cells in the mammary gland. These studies will provide insight into the various cell types that give rise to different types of breast cancer. An important evolving concept in cancer biology is that a rare population of cells resident within a tumour, termed 'cancer stem cells', have indefinite growth potential and drive tumour growth. These cells could even account for resistance to conventional anti-cancer treatment, as cells with stem cell-like properties would be able to proliferate extensively and form new tumours. We will apply our knowledge of normal mammary stem cells to determine whether cancer stem cells are indeed present in mouse tumours. Those findings will have direct relevance to human breast cancer. Utlimately, we wish to identify specific cell surface proteins on stem and precursor cells that could provide therapeutic targets. Our studies will provide new insights into the cell types from which breast cancer arise, and how their fate and tumour-forming capacity can be modified by altering gene expression. Delineation of cancer-prone cells and cancer stem cells could reveal new markers and provide new therapeutic strategies to target breast cancer.Read moreRead less
In Vivo Role Of LMO4 And Isolation Of An LMO4-containing Proteosome In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$455,250.00
Summary
Breast cancer is the most common cancer to affect women, with one in 10 developing the disease. Although treatment of breast cancer has substantially improved over the last few years, 25% of women diagnosed with this cancer will die from the disease. A major objective of cancer research is the identification of genes involved in tumour development and definition of their precise role in both normal and cancer cells. The design of effective therapeutic inhibitors of cancer requires an understandi ....Breast cancer is the most common cancer to affect women, with one in 10 developing the disease. Although treatment of breast cancer has substantially improved over the last few years, 25% of women diagnosed with this cancer will die from the disease. A major objective of cancer research is the identification of genes involved in tumour development and definition of their precise role in both normal and cancer cells. The design of effective therapeutic inhibitors of cancer requires an understanding of the basic molecular and cellular biology behind the genetic changes thought to contribute to cancer. The focus of our research is to understand normal cellular mechanisms that drive growth and differentiation of breast tissue, and those changes that lead to breast cancer. Nuclear regulatory proteins have been implicated in many different types of cancers and leukaemias. We aim to identify the key regulators in breast tissue, characterising both their structural properties and biological roles, with the ultimate view of understanding how they divert a normal cell to a cancerous cell. This proposal centres on the characterisation of a specific regulatory molecule which we recently demonstrated to be overexpressed in 56% of human primary breast cancers and in 38% of pre-invasive ductal carcinoma in situ. These studies will include defining its normal biologic function and identification of the proteins that this regulator associates with in breast cancer cells.Read moreRead less
Role Of SOCS3 In Mammary Gland Development And Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$224,278.00
Summary
We are studying the role of a family of inhibitory molecules (SOCS) in breast tissue; these proteins have been established to have critical roles in the immune system and in regulating growth of the entire animal. We have demonstrated that one member of this family can block the action of the prolactin hormone and have recently obtained evidence that another member of this family, SOCS3, affects survival of breast cells. Furthermore, this protein leads to increased growth when overexpressed in b ....We are studying the role of a family of inhibitory molecules (SOCS) in breast tissue; these proteins have been established to have critical roles in the immune system and in regulating growth of the entire animal. We have demonstrated that one member of this family can block the action of the prolactin hormone and have recently obtained evidence that another member of this family, SOCS3, affects survival of breast cells. Furthermore, this protein leads to increased growth when overexpressed in breast cells. We propose to define the normal role of this gene in mouse mammary tissue and to examine the consequences of expressing the gene at high levels in the mammary glands of mice. Inappropriate expression of this gene may predispose humans to breast cancer. SOCS3 expression will be directly studied in a cohort of primary invasive breast cancers with associated clinical outcome data, to determine whether it has a role as a potential prognostic marker.Read moreRead less
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.