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.
Development Of A Novel Mannan-based Avian Influenza Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$195,566.00
Summary
We have a sugar (mannan) that can be used to increase immune responses. We have found that mannan decreases the dose of inactivated virus needed for intranasal immunization. We will investigate if dose sparing is seen when given intramuscularly. This method will be first tried with the human flu virus and if successful will be tried with the bird flu virus. If the preparation can protect mice and ferrets from human or bird flu infection it could develop into a human vaccine against bird flu.
How Important Is Collagen Destruction In Arthritis? A Study With Collagenase-resistant Knockin Mice
Funder
National Health and Medical Research Council
Funding Amount
$529,723.00
Summary
Aggecan and collagen are important structural molecules in cartilage. Together they allow cartilage to bear weight and resist compression. In arthritis, collagen is degraded by collagenases and aggrecan is degraded by aggrecanases. Aggrecan loss is a feature of cartilage disease. Early aggrecan loss is well documented and usually precedes clinical symptoms, suggesting that it is the initiating step in cartilage pathology. Aggrecan loss precedes collagen damage in explant culture, however it is n ....Aggecan and collagen are important structural molecules in cartilage. Together they allow cartilage to bear weight and resist compression. In arthritis, collagen is degraded by collagenases and aggrecan is degraded by aggrecanases. Aggrecan loss is a feature of cartilage disease. Early aggrecan loss is well documented and usually precedes clinical symptoms, suggesting that it is the initiating step in cartilage pathology. Aggrecan loss precedes collagen damage in explant culture, however it is not known whether inhibiting aggrecanases is sufficient to block cartilage damage long-term. In contrast, other studies suggest that aggrecan is only lost after damage to the collagen scaffold. These studies propose that clipping of the collagen scaffold may initiate aggrecan release; with progressive degeneration and collagen clipping, more aggrecan is lost, until ultimately the scaffold is severely damaged and aggrecan is severely depleted. Cartilage can only withstand a limited degree of collagen degradation and any significant damage to the network is widely considered to be irreparable. It is unclear what role aggrecanases and collagenases have in initiating and perpetuating cartilage damage. We have mice with aggrecan resistant to aggrecanases and mice with inactive aggrecanase. We will also create mice with collagen resistant to collagenase. We will use these mice to determine the contribution of collagenases and aggrecanases to the initiation and progression of cartilage damage, in three models of joint disease. We will identify differences in time of disease onset, rate of disease progression and disease severity. The results will show whether one or both activities is important for the initiation and progression of joint disease. This will reveal whether single or combination therapies are required for the management of arthritis. The research will inform the pharmaceutical industry on directions for the development of new drugs to prevent joint disease.Read moreRead less
Cellular And Molecular Determinants Of Preleukaemic And Leukaemic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$292,635.00
Summary
It has recently become evident that the formation, growth and relapse of many cancers is driven by a rare population of cancer stem cells (CSCs) that have the unique ability to propagate new tumours and are highly resistant to current therapies. However, which normal cells are transformed into CSCs is not known. We will take a potent cancer gene found in leukaemia, and switch it on and off in specific blood cells in mice to determine which healthy cells can be turned into leukaemic stem cells.
Diamond membranes for advanced manufacturing. This project aims to unlock the potential of diamond membrane devices in research and industry, by enabling the scalable manufacture of high quality diamond membrane samples. These will be packaged in a form that is easily transportable and with properties that are optimizable and functional for a variety of end-users. This project will allow the distribution of high quality base material to the academic and start-up markets. The expected outcome inc ....Diamond membranes for advanced manufacturing. This project aims to unlock the potential of diamond membrane devices in research and industry, by enabling the scalable manufacture of high quality diamond membrane samples. These will be packaged in a form that is easily transportable and with properties that are optimizable and functional for a variety of end-users. This project will allow the distribution of high quality base material to the academic and start-up markets. The expected outcome includes the development of products in healthcare and security such as infra-red frequency combs for gas-based chemical sensing and nanopore devices for new DNA sequencers.Read moreRead less