Regulation Of Mesenchymal To Epithelial Transitions By Netrin Receptors
Funder
National Health and Medical Research Council
Funding Amount
$646,995.00
Summary
The formation of 2D cellular sheets is important during development, tissue repair, and tumor growth. The mechanisms involved, however, remain largely unknown. Recent findings in the fly and in human cells suggest Frazzled/Neogenin receptors drive this process, by establishing polarised scaffolds in the cell. We will test this hypothesis using fly genetics and analysis of 3-dimensional culture of mammalian cells. Our results will help guide future therapies for human disease.
Identification Of Novel Tumour Suppressors In Ras-mediated Tumourigenesis
Funder
National Health and Medical Research Council
Funding Amount
$580,504.00
Summary
Cancer is a cooperative process, involving mutations in several genes. Activation of the signaling protein, Ras, contributes to ~30% of human cancers, but alone is not sufficient for tumour formation. The identification of cooperating Tumour Suppressors (TSs), and their analysis in the vinegar fly, Drosophila, mammalian cells and mouse models is key to understanding cancer progression and for the development of therapeutic regimes
All cells have a characteristic shape (morphology), which is intrinsic to cellular function. A blood cell is designed to move in a liquid medium whereas a muscle cell is optimised for physical movement of attached bones. We are studying the mechanisms which control cell shape. We focus on the components of the cell skeleton (cytoskeleton) which are implicated in the regulation of shape. In particular, we study the actin based microfilament system. We have previously shown that two types of these ....All cells have a characteristic shape (morphology), which is intrinsic to cellular function. A blood cell is designed to move in a liquid medium whereas a muscle cell is optimised for physical movement of attached bones. We are studying the mechanisms which control cell shape. We focus on the components of the cell skeleton (cytoskeleton) which are implicated in the regulation of shape. In particular, we study the actin based microfilament system. We have previously shown that two types of these components of the cytoskeleton are able to control the structure of cells. In addition, we have found that variants of these two components (called isoforms) are used to build structures in different parts of cells. This has led us to think about the anatomy of cells and tissues in a new way. In some ways its like building a city. You create different kinds of buildings to suit their purpose. Each building uses a combination of building blocks which suit the structural demands of rooms and the overall building. In this study we are proposing to identify the specific job that one of these types of building blocks must play in order to allow normal cell growth and embryo development. To do this, we plan to change these genes in mice and then examine the impact on cell and tissue anatomy. This promises to contribute to the conversion of anatomical science and pathology from descriptive to experimental-mechanistic disciplines. This in turn will lead to a new tool set of diagnostic agents for the pathologist and the development of drugs which target specific functions of the cytoskeleton.Read moreRead less
Regulation Of Cell Proliferation By The Actin Cytoskeleton
Funder
National Health and Medical Research Council
Funding Amount
$607,795.00
Summary
The architecture of cells defines both their shape and function. It has been known for a long time that cell architecture controls the growth of cells and in particular their capacity to proliferate. We have identified part of the architectural system which controls this process. In this project we will establish how this works and its role in the body. This research will test whether this part of the cell�s architecture is a suitable drug target for the treatment of disorders in cell growth.
Analysis Of Rho GTPase Signalling Pathways In An Epithelial To Mesenchymal Transition During Development Of The Mesoderm
Funder
National Health and Medical Research Council
Funding Amount
$409,500.00
Summary
A critical step in the progression of cancers that are derived from epithelial tissues is a transition from an epithelial cell type to a migratory mesenchymal cell type that can spread to other parts of the body. This change in cell behaviour also occurs, apparently by a similar mechanism, during the development of some normal tissue types. Here we propose to use an animal model of this process, coupled with advanced molecular genetic and cell biological techniques, to investigate a newly discov ....A critical step in the progression of cancers that are derived from epithelial tissues is a transition from an epithelial cell type to a migratory mesenchymal cell type that can spread to other parts of the body. This change in cell behaviour also occurs, apparently by a similar mechanism, during the development of some normal tissue types. Here we propose to use an animal model of this process, coupled with advanced molecular genetic and cell biological techniques, to investigate a newly discovered cell signalling mechanism required for the transition of cells from an epithelial form to a mesenchymal form. Understanding the molecular steps in this new pathway and discovering new genes involved will provide tools for understanding and preventing the metastasis of cancer cells.Read moreRead less
Role Of Primary Cilia And PCP Proteins In Lens Development: Implications For Lens Regeneration After Cataract Surgery
Funder
National Health and Medical Research Council
Funding Amount
$413,742.00
Summary
Cataract extraction is the most common surgical procedure conducted in our hospitals today. Unfortunately, a complication of surgery is the development of a secondary cataract. This is caused by residual lens epithelial cells undergoing a wound healing response that leads to severe scarring and loss of vision. This project will identify the factors that are needed to maintain lens epithelial cells in a normal state so that they can act as stem cells that can be induced to regenerate a new lens t ....Cataract extraction is the most common surgical procedure conducted in our hospitals today. Unfortunately, a complication of surgery is the development of a secondary cataract. This is caused by residual lens epithelial cells undergoing a wound healing response that leads to severe scarring and loss of vision. This project will identify the factors that are needed to maintain lens epithelial cells in a normal state so that they can act as stem cells that can be induced to regenerate a new lens that can transmit and focus light as normal.Read moreRead less