Investigating A Novel Role For The Haemopoietic Growth Factor Receptor, C-Mpl, In Regulating Shear-dependent Platelet Adhesive Function
Funder
National Health and Medical Research Council
Funding Amount
$570,294.00
Summary
Platelets play a critical role in blood clot formation, with low platelet numbers leading to bleeding while excessive clot formation can cause heart attack and stroke. Platelets must ‘stick’ to injured blood vessels under blood flow (shear). We have discovered that the growth factor, c-Mpl, can regulate shear-dependent platelet sticking by controlling receptor ‘shedding’ from the cell surface. We will investigate how c-Mpl performs this new role, and examine platelet function in patients with my ....Platelets play a critical role in blood clot formation, with low platelet numbers leading to bleeding while excessive clot formation can cause heart attack and stroke. Platelets must ‘stick’ to injured blood vessels under blood flow (shear). We have discovered that the growth factor, c-Mpl, can regulate shear-dependent platelet sticking by controlling receptor ‘shedding’ from the cell surface. We will investigate how c-Mpl performs this new role, and examine platelet function in patients with myeloproliferative disease who have reduced c-Mpl.Read moreRead less
Targeting Transcriptional Addiction For Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$128,224.00
Summary
.Tumours driven by the oncogene “Myc” are difficult to treat and an effective means to directly target Myc using small molecules has proven elusive. We have discovered that Myc-dependent tumours are dependent on their ability to globally amplify gene expression through a mechanism that involves the CDK9 enzyme and possibly other related enzymes. I will test the effectiveness of targeting CDK9 in a range of tumours with a Myc dependency, both alone and in combination with other small molecules.
Blood clotting is the underlying cause of heart attacks and strokes. We have discovered that the protein, ERp5, is essential for normal blood clotting. Our preliminary findings indicate that ERp5 controls the function of blood platelets in clotting. Our overall aim is to elucidate how ERp5 regulates platelet function. It is crucial that we understand how ERp5 functions in blood clotting if we are to effectively target it in disease.