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.
Mechanisms Of CD44v2-10-mediated Tumour Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$441,000.00
Summary
Cancer metastasis remains the principal cause of treatment failure in malignant disease. Current therapies for metastases are generally non-specific, and can cause considerable systemic toxicity. The ideal target for metastasis therapy would be expressed by a broad range of tumours, but be restricted in expression in normal tissues. CD44 is a family of widely expressed cell-surface adhesion molecules and its members are implicated in a variety of physiological and pathological processes, includi ....Cancer metastasis remains the principal cause of treatment failure in malignant disease. Current therapies for metastases are generally non-specific, and can cause considerable systemic toxicity. The ideal target for metastasis therapy would be expressed by a broad range of tumours, but be restricted in expression in normal tissues. CD44 is a family of widely expressed cell-surface adhesion molecules and its members are implicated in a variety of physiological and pathological processes, including tumour progression and metastasis. CD44 has considerable molecular diversity and its broad range of known biological activities suggests that multiple domains in the molecule may confer different biological functions. The core CD44 molecule, termed CD44s, is the most commonly expressed CD44 molecule. CD44 variants (termed CD44v) are much more restricted in their expression in normal tissues, and hence may make specific targets for anti-metastasis therapy. We have shown that CD44 variants are expressed by colorectal tumours from the earliest stages of tumour development, and that theses variants are found to be expressed by colorectal hepatic metastases. We targeted two key domains in the variants and found that by inhibiting expression in these domains we showed complete abrogation of metastasis, and of primary tumour growth in mice. Hence these domains in the CD44 molecule are directly involved in cancer spread. We propose to investigate the mechanisms by which specificdomains in the CD44 variants actually cause tumour spread. Understanding of the various mechanisms involved in tumour spread, and targeting the functions of the domains has enormous potential as a therapeutic target.Read moreRead less