IL-16 Regulates Mast Cell Chemotaxis And Function Through The Tetraspanin CD9.
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Mast cells are found in humans and other mammals at strategic sites such as skin, lining of the airways and gut and provide a first line of defence against a variety of infections. These cells use a number of products that have profound effects in humans. In particular, these products are thought to be involved in defence against bacteria, viruses and are implicated in allergic conditions such as asthma. In normal circumstances mast cells are only found in the tissues and not in the peripheral b ....Mast cells are found in humans and other mammals at strategic sites such as skin, lining of the airways and gut and provide a first line of defence against a variety of infections. These cells use a number of products that have profound effects in humans. In particular, these products are thought to be involved in defence against bacteria, viruses and are implicated in allergic conditions such as asthma. In normal circumstances mast cells are only found in the tissues and not in the peripheral blood. However, we have made the first observation that mast-like cells occur in the peripheral blood of patients with asthma and allergic conditions but not in normals. This finding changed the prevailing paradigm for mast cell biology. The products that can influence mast cell growth and function are vital to the understanding of how mast cells are involved in conditions such as human asthma. We have demonstrated that a protein (CD9) on mast cells in the tetraspanin family is a receptor for a product (IL-16) which is thought to be important in asthma and other inflammatory conditions. The understanding of how mast cells are regulated by IL-16 may lead to potential new therapies in conditions such as asthma and HIV-1 infection.Read moreRead less
Understanding How Tetraspanin Superfamily Members Modulate Platelet Function
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
Platelets are small cells in the blood stream that play an important role in preventing excessive blood loss at sites of tissue injury by sticking together and forming a haemostatic plug. Excessive platelet clumping in diseased blood vessels can lead to blockages and cause thrombotic diseases such as heart attack and stroke, two of the biggest killers of humans in the western world. In this proposal, we will seek to understand how tetraspanin superfamily members expressed on the surface of plate ....Platelets are small cells in the blood stream that play an important role in preventing excessive blood loss at sites of tissue injury by sticking together and forming a haemostatic plug. Excessive platelet clumping in diseased blood vessels can lead to blockages and cause thrombotic diseases such as heart attack and stroke, two of the biggest killers of humans in the western world. In this proposal, we will seek to understand how tetraspanin superfamily members expressed on the surface of platelets modulate the function of the major platelet integrin, integrin alphaIIbbeta3 and the low-affinity IgG receptor, FcgammaRIIa. This aims of this work will define the roles of these receptors in platelet clumping both in cell-based assays and in mouse models of thrombosis. This work could lead to new strategies for therapeutic management of thrombotic disorders.Read moreRead less
Tetraspanins Serve As Molecular Facilitators To Regulate Platelet Thrombus Formation
Funder
National Health and Medical Research Council
Funding Amount
$589,544.00
Summary
Platelets are small fragments of megakaryocytes that circulate in the blood stream. They play an important role in preventing excessive blood loss at sites of tissue injury by sticking together and forming a haemostatic plug. Excessive platelet clumping in diseased blood vessels can lead to blockages and cause thrombotic diseases such as heart attack and stroke. We have discovered that tetraspanins serve to regulate platelet glycoproteins including integrin alphaIIbbeta, P2Y12 and thrombosis.