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Adrenomedullin: a specific regulator of venous vessel integrity. Arteries and veins display different adhesive properties, which enable them to fulfil their physiological roles. We are yet to understand the mechanisms that establish and maintain adhesive function in different vessel types. We have discovered that signalling by the peptide Adrenomedullin (ADM) is a key mediator of adhesion, only in veins but not arteries. This project aims to utilise innovative models (zebrafish, mouse and bioeng ....Adrenomedullin: a specific regulator of venous vessel integrity. Arteries and veins display different adhesive properties, which enable them to fulfil their physiological roles. We are yet to understand the mechanisms that establish and maintain adhesive function in different vessel types. We have discovered that signalling by the peptide Adrenomedullin (ADM) is a key mediator of adhesion, only in veins but not arteries. This project aims to utilise innovative models (zebrafish, mouse and bioengineered vessels) to identify the biochemical and mechanical mechanisms by which ADM controls venous adhesion. Outcomes will improve our understanding on how vessel integrity is controlled across vessel types and will expand the scope of Australian research by informing efforts to vascularise engineered tissues.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100100
Funder
Australian Research Council
Funding Amount
$3,300,000.00
Summary
Forces in Nature: Tissue mechanics and cell sociology. Epithelial cells cover surfaces in the body, forming a shield to protect us from the environment. Despite their importance, we understand poorly how the cells communicate. This project aims to test the novel concept that epithelial cells communicate via transmission and detection of mechanical forces, using an innovative combination of cellular and biophysical experiments and physical theory. The expected outcomes are new knowledge, interdis ....Forces in Nature: Tissue mechanics and cell sociology. Epithelial cells cover surfaces in the body, forming a shield to protect us from the environment. Despite their importance, we understand poorly how the cells communicate. This project aims to test the novel concept that epithelial cells communicate via transmission and detection of mechanical forces, using an innovative combination of cellular and biophysical experiments and physical theory. The expected outcomes are new knowledge, interdisciplinary training for young scientists, new national research capacity and growing international collaborations. Benefits include enhancing Australia’s scientific linkages and research capacity and providing fundamental knowledge that could lead to future advances in bioengineering and drug discovery. Read moreRead less