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.
I am a clinician-scientist engaged in basic, translational and clinical breast cancer research, with the long-term goal to identify and exploit novel cancer targets to improve patient outcomes. My research, which covers both sporadic and hereditary forms of breast cancer, is focussed on elucidating the breast epithelial cell hierarchy, in order to identify key regulators responsible for breast epithelial cell proliferation, differentiation and cancer.
Gubernacular Migration During Testicular Descent And The Role Of The Mammary Line
Funder
National Health and Medical Research Council
Funding Amount
$513,642.00
Summary
This study investigates the role of the mammary line, which forms the breasts in females and is present but invisible in males, in the mechanism of testicular descent.
I am a cellular biologist studying lineage commitment and differentiation in the mammary gland. Key interests include defining transcriptional regulators that are important for mammary gland development and oncogenesis, and the characterisation of normal
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
I am a cellular biologist studying lineage commitment and differentiation in the mammary gland. Key interests include defining transcriptional regulators that are important for mammary gland development and oncogenesis, and the characterisation of stem cells and other epithelial cell types in breast tissue.