Molecular Control Of Cell Proliferation In Early Mouse Development
Funder
National Health and Medical Research Council
Funding Amount
$338,009.00
Summary
Elucidation of cell cycle regulation in the proliferating pluripotent cells of the early mammalian embryo is likely to have important impact on basic scientific knowledge, and on the development of novel therapeutic strategies. Investigation of this problem, in vitro and in vivo, requires specialist skills in cell cycle analysis, and experimental manipulation of mammalian embryos and pluripotent cells. This application will seek to address these fundamental issues of early development and cell p ....Elucidation of cell cycle regulation in the proliferating pluripotent cells of the early mammalian embryo is likely to have important impact on basic scientific knowledge, and on the development of novel therapeutic strategies. Investigation of this problem, in vitro and in vivo, requires specialist skills in cell cycle analysis, and experimental manipulation of mammalian embryos and pluripotent cells. This application will seek to address these fundamental issues of early development and cell proliferation using molecular approaches. The general aims will be: 1. to obtain a detailed description of cell cycles in pluripotent and differentiating cells of the mouse embryo 2. use this information to build a molecular description of cell cycle events during early embryogenesis 3. investigate the relationship between rapid cell proliferation in the embryo and pluripotencyRead moreRead less
Novel Small Molecule FosB/AP-1 Inhibitors For The Prevention Of Proliferative Vascular Disorders
Funder
National Health and Medical Research Council
Funding Amount
$343,597.00
Summary
This project examines the effect of a novel FosB/AP-1 inhibitor (LK001) on neointima formation after injury in animal models of restenosis, atherosclerosis and abdominal aortic aneurysm, and a human ex vivo model of graft stenosis Given the current prevalence of CVD in Australia and the increasing demographic of susceptible individuals in the ageing population, this project has enormous clinical implications.
The Role Of SKAM And Sphingosine Kinase In Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$281,340.00
Summary
Many aspects of wound healing are poorly understood. We have identified a novel cellular pathway that appears critically involved in controlling wound contraction. This project aims to characterise this cellular pathway to understand the exact mechanisms whereby it controls this critical aspect of wound healing. With this information we will develop topical therapeutics to aid the wound healing process.
Regulators Of Cell Cycle As Therapeutic Drug-targets For Cortical Tubular Hyperplasia In Proteinuric Renal Disease
Funder
National Health and Medical Research Council
Funding Amount
$219,750.00
Summary
Currently in Australia, it has been estimated that approximately 60 000 people suffer from chronic kidney failure (CKF). In at least 80% of people with CKF, the kidney function will continue to worsen (due to disease progression) to the point where end-stage kidney failure (ESKF) has developed. When the latter occurs daily treatment by either dialysis or kidney transplantation is mandatory for a person to survive. At present, there are nearly 10 000 patients with ESKF who are being treated by di ....Currently in Australia, it has been estimated that approximately 60 000 people suffer from chronic kidney failure (CKF). In at least 80% of people with CKF, the kidney function will continue to worsen (due to disease progression) to the point where end-stage kidney failure (ESKF) has developed. When the latter occurs daily treatment by either dialysis or kidney transplantation is mandatory for a person to survive. At present, there are nearly 10 000 patients with ESKF who are being treated by dialysis or transplantation, in Australia. Although these treatments have allowed patients to survive, they are associated with significant and unacceptable patient morbidity and mortality. Current medical treatments to reduce the disease progression of CKF (and thereby extend the time taken to reach ESKF) are non-specific, partially effective and have a variable response. Also, these treatments are NOT known to arrest the progression of CKF. To compound the overall problem even further, the number of new patients starting chronic dialysis programmes is increasing (by 6% per year). Consequently, ESKF has been described by leading authorities as a medical catastrophe of world-wide dimensions, and research into ways to reduce-arrest the progression of CKF has been recommended as an urgent priority by the Australian Kidney Foundation. In CKF, the kidneys undergo compensatory growth which is harmful and paradoxically contributes to disease progression. The aim of this research program is to advance knowledge about the molecular mechanisms of kidney growth in CKF, with specific goals of: (i) identifying new molecular targets for drug-based manipulation of kidney growth; and (ii) to test the efficacy of experimental drugs which have an ability to alter kidney growth, and thereby reduce the progression of CKF.Read moreRead less
Receptors And Ligands Regulating Human NK Cell Proliferation
Funder
National Health and Medical Research Council
Funding Amount
$692,040.00
Summary
A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division ....A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division thereby preserving self and destroying diseased cells. Yet many NK cells express both an inhibitory and activating receptor for this same 'self' protein. We will investigate what determines the outcome of this competing information. Many NK cell receptors remain to be identified and we will use a gene expression approach and monoclonal antibodies to identify these and determine how they affect NK cell proliferation. We will use molecular engineering to construct multimeric arrays of new NK cell receptors to search for the ligand molecules that they interact with on other cells. Identifying NK cell receptors and their ligands regulating NK cell proliferation and function will enable us to understand the role of these cells in health and in inflammatory diseases and cancer.Read moreRead less
Regulation Of Cell Proliferation By The Actin Cytoskeleton
Funder
National Health and Medical Research Council
Funding Amount
$607,795.00
Summary
The architecture of cells defines both their shape and function. It has been known for a long time that cell architecture controls the growth of cells and in particular their capacity to proliferate. We have identified part of the architectural system which controls this process. In this project we will establish how this works and its role in the body. This research will test whether this part of the cell�s architecture is a suitable drug target for the treatment of disorders in cell growth.