The Role Of The EphA1 In The Normal Epithelial Organs And In Epithelial Tumour Progression.
Funder
National Health and Medical Research Council
Funding Amount
$564,500.00
Summary
The Eph family of proteins were initially found to be important in normal development. In humans this corresponds to the first 12 weeks of pregnancy. In parallel with these studies, other work provided evidence of abnormally high levels of these proteins in a number of human cancers. More recent evidence suggests that these proteins have important roles in the maintenance of normal tissues and in non-malignant diseases. This proposal seeks to understand how one of these proteins (EphA1) works in ....The Eph family of proteins were initially found to be important in normal development. In humans this corresponds to the first 12 weeks of pregnancy. In parallel with these studies, other work provided evidence of abnormally high levels of these proteins in a number of human cancers. More recent evidence suggests that these proteins have important roles in the maintenance of normal tissues and in non-malignant diseases. This proposal seeks to understand how one of these proteins (EphA1) works in the cells which form the skin, liver, kidneys, breast and prostate. These cells also form the lining of the mouth, stomach, bowel and lungs. Understanding how the EphA1 protein and other members of this family cooperate to control the development and maintenance of these organs will allow us to determine whether this protein might be involved in congenital defects and diseases in these organs (such as kidney failure, cirrhosis of the liver and skin diseases). A second main aim of this project is to explore further the observation that Eph proteins are abnormally highly expressed in a wide rangre of human cancers. This abnormal expression is directly correlated with the tumours spreading throughout the body. EphA1 is abnormally highly expressed in cancers of the bowel, lung, breast and prostate. These are the commonest cancers in man and some of the most difficult to treat. The work proposed asks how EphA1 contributes to the development and progression of these cancers. These results will have very direct implications for the development of therapies which target the EphA1 protein.Read moreRead less
Cytoskeletal Regulation Of Adhesion Structure And Cell Movement
Funder
National Health and Medical Research Council
Funding Amount
$60,420.00
Summary
Metastatic (secondary) cancers are a frequent cause of patient mortality. Central to the development of metastasis is cell motility-movement. A key component of cell movement is the way that cells bind and release the extra-cellular matrix as they move. By understanding how the dynamics of cell interaction with the matrix are regulated, we will identify molecules that are critical to the development of metastatic cancer and thus novel targets for inhibition of metastasis.
UNDERSTANDING FOCAL ADHESION DYNAMICS IN CELL MIGRATION
Funder
National Health and Medical Research Council
Funding Amount
$268,944.00
Summary
Metastatic (secondary) cancers are a frequent cause of patient mortality. Central to the development of metastasis is cell motility-movement. A key component of cell movement is the way that cells bind and release the extra-cellular matrix as they move. By understanding how the dynamics of cell interaction with the matrix are regulated, we will identify molecules that are critical to the development of metastatic cancer and thus novel targets for inhibition of metastasis.
Investigation Of The Role For GPVI In Platelet Function And Thrombosis
Funder
National Health and Medical Research Council
Funding Amount
$542,772.00
Summary
Blood cells play an important role in maintaining healthy blood vessels. We are studying the role of platelets in blood clots following vessel injury. However, while critical for normal blood vessel maintenance, these cells also contribute to diseases including thrombosis. We will examine how an important platelet receptor called GPVI promotes blood clot formation, and examine whether combining anticoagulant drugs with GPVI deficient platelets leads to a more effective anticlotting approach.
The Implications Of Focal Adhesion Organization On Signal Transduction
Funder
National Health and Medical Research Council
Funding Amount
$565,614.00
Summary
The areas of a cell's attachment to their surroundings are known as focal adhesion. Apart from linking the inside and outside of a cell, focal adhesions act as a communication centre transmitting incoming and outgoing signals. How focal adhesions themselves are organized is currently not known. We propose to adhere cells to model surfaces to control the protein and membrane structure of focal adhesions and measure how focal adhesion structure affects cell communication.